/*****************************************************************************
 *
 * Project:  Idrisi Raster Image File Driver
 * Purpose:  Read/write Idrisi Raster Image Format RST
 * Author:   Ivan Lucena, [lucena_ivan at hotmail.com]
 *
 * Revised by Hongmei Zhu, February, 2013
 * honzhu@clarku.edu
 * Clark Labs/Clark University
 *
 ******************************************************************************
 * Copyright( c ) 2006, Ivan Lucena
 * Copyright (c) 2007-2012, Even Rouault <even dot rouault at spatialys.com>
 *
 * Permission is hereby granted, free of charge, to any person obtaining a
 * copy of this software and associated documentation files( the "Software" ),
 * to deal in the Software without restriction, including without limitation
 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
 * and/or sell copies of the Software, and to permit persons to whom the
 * Software is furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included
 * in all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
 * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
 * DEALINGS IN THE SOFTWARE.
 ****************************************************************************/

#include "cpl_conv.h"
#include "cpl_string.h"
#include "cpl_csv.h"
#include "gdal_frmts.h"
#include "gdal_pam.h"
#include "gdal_alg.h"
#include "gdal_priv.h"
#include "gdal_rat.h"
#include "ogr_spatialref.h"
#include "idrisi.h"

#include "proj_experimental.h"
#include "ogr_proj_p.h"

#include <cmath>

#ifdef _WIN32
#define PATHDELIM '\\'
#else
#define PATHDELIM '/'
#endif

//----- Safe numeric conversion, NULL as zero
#define atoi_nz(s) (s == nullptr ? (int)0 : atoi(s))
#define CPLAtof_nz(s) (s == nullptr ? (double)0.0 : CPLAtof(s))

//----- file extensions:
static const char *const extRST = "rst";
static const char *const extRDC = "rdc";
static const char *const extSMP = "smp";
static const char *const extREF = "ref";
// static const char * const extRSTu        = "RST";
static const char *const extRDCu = "RDC";
static const char *const extSMPu = "SMP";
static const char *const extREFu = "REF";

//----- field names on rdc file:
static const char *const rdcFILE_FORMAT = "file format ";
static const char *const rdcFILE_TITLE = "file title  ";
static const char *const rdcDATA_TYPE = "data type   ";
static const char *const rdcFILE_TYPE = "file type   ";
static const char *const rdcCOLUMNS = "columns     ";
static const char *const rdcROWS = "rows        ";
static const char *const rdcREF_SYSTEM = "ref. system ";
static const char *const rdcREF_UNITS = "ref. units  ";
static const char *const rdcUNIT_DIST = "unit dist.  ";
static const char *const rdcMIN_X = "min. X      ";
static const char *const rdcMAX_X = "max. X      ";
static const char *const rdcMIN_Y = "min. Y      ";
static const char *const rdcMAX_Y = "max. Y      ";
static const char *const rdcPOSN_ERROR = "pos'n error ";
static const char *const rdcRESOLUTION = "resolution  ";
static const char *const rdcMIN_VALUE = "min. value  ";
static const char *const rdcMAX_VALUE = "max. value  ";
static const char *const rdcDISPLAY_MIN = "display min ";
static const char *const rdcDISPLAY_MAX = "display max ";
static const char *const rdcVALUE_UNITS = "value units ";
static const char *const rdcVALUE_ERROR = "value error ";
static const char *const rdcFLAG_VALUE = "flag value  ";
static const char *const rdcFLAG_DEFN = "flag def'n  ";
static const char *const rdcFLAG_DEFN2 = "flag def`n  ";
static const char *const rdcLEGEND_CATS = "legend cats ";
static const char *const rdcLINEAGES = "lineage     ";
static const char *const rdcCOMMENTS = "comment     ";
static const char *const rdcCODE_N = "code %6d ";

//----- ".ref" file field names:
static const char *const refREF_SYSTEM = "ref. system ";
static const char *const refREF_SYSTEM2 = "ref.system  ";
static const char *const refPROJECTION = "projection  ";
static const char *const refDATUM = "datum       ";
static const char *const refDELTA_WGS84 = "delta WGS84 ";
static const char *const refELLIPSOID = "ellipsoid   ";
static const char *const refMAJOR_SAX = "major s-ax  ";
static const char *const refMINOR_SAX = "minor s-ax  ";
static const char *const refORIGIN_LONG = "origin long ";
static const char *const refORIGIN_LAT = "origin lat  ";
static const char *const refORIGIN_X = "origin X    ";
static const char *const refORIGIN_Y = "origin Y    ";
static const char *const refSCALE_FAC = "scale fac   ";
static const char *const refUNITS = "units       ";
static const char *const refPARAMETERS = "parameters  ";
static const char *const refSTANDL_1 = "stand ln 1  ";
static const char *const refSTANDL_2 = "stand ln 2  ";

//----- standard values:
static const char *const rstVERSION = "Idrisi Raster A.1";
static const char *const rstBYTE = "byte";
static const char *const rstINTEGER = "integer";
static const char *const rstREAL = "real";
static const char *const rstRGB24 = "rgb24";
static const char *const rstDEGREE = "deg";
static const char *const rstMETER = "m";
static const char *const rstLATLONG = "latlong";
static const char *const rstLATLONG2 = "lat/long";
static const char *const rstPLANE = "plane";
static const char *const rstUTM = "utm-%d%c";
static const char *const rstSPC = "spc%2d%2s%d";

//----- palette file( .smp ) header size:
constexpr int smpHEADERSIZE = 18;

//----- check if file exists:
bool FileExists(const char *pszPath);

//----- Reference Table
struct ReferenceTab
{
    int nCode;
    const char *pszName;
};

//----- USA State's reference table to USGS PCS Code
constexpr ReferenceTab aoUSStateTable[] = {
    {101, "al"},  {201, "az"},  {301, "ar"},  {401, "ca"},  {501, "co"},
    {600, "ct"},  {700, "de"},  {901, "fl"},  {1001, "ga"}, {1101, "id"},
    {1201, "il"}, {1301, "in"}, {1401, "ia"}, {1501, "ks"}, {1601, "ky"},
    {1701, "la"}, {1801, "me"}, {1900, "md"}, {2001, "ma"}, {2111, "mi"},
    {2201, "mn"}, {2301, "ms"}, {2401, "mo"}, {2500, "mt"}, {2600, "ne"},
    {2701, "nv"}, {2800, "nh"}, {2900, "nj"}, {3001, "nm"}, {3101, "ny"},
    {3200, "nc"}, {3301, "nd"}, {3401, "oh"}, {3501, "ok"}, {3601, "or"},
    {3701, "pa"}, {3800, "ri"}, {3900, "sc"}, {4001, "sd"}, {4100, "tn"},
    {4201, "tx"}, {4301, "ut"}, {4400, "vt"}, {4501, "va"}, {4601, "wa"},
    {4701, "wv"}, {4801, "wv"}, {4901, "wy"}, {5001, "ak"}, {5101, "hi"},
    {5200, "pr"}};

//---- The origin table for USA State Plane Systems
struct OriginTab83
{
    double longitude;
    double latitude;
    const char *spcs;
};

constexpr int ORIGIN_COUNT = 148;

//---- USA State plane coordinate system in IDRISI
static const OriginTab83 SPCS83Origin[] = {
    {85.83, 30.50, "SPC83AL1"},  {87.50, 30.00, "SPC83AL2"},
    {176.00, 51.00, "SPC83AK0"}, {142.00, 54.00, "SPC83AK2"},
    {146.00, 54.00, "SPC83AK3"}, {150.00, 54.00, "SPC83AK4"},
    {154.00, 54.00, "SPC83AK5"}, {158.00, 54.00, "SPC83AK6"},
    {162.00, 54.00, "SPC83AK7"}, {166.00, 54.00, "SPC83AK8"},
    {170.00, 54.00, "SPC83AK9"}, {110.17, 31.00, "SPC83AZ1"},
    {111.92, 31.00, "SPC83AZ2"}, {113.75, 31.00, "SPC83AZ3"},
    {92.00, 34.33, "SPC83AR1"},  {92.00, 32.67, "SPC83AR2"},
    {122.00, 39.33, "SPC83CA1"}, {122.00, 37.67, "SPC83CA2"},
    {120.50, 36.50, "SPC83CA3"}, {119.00, 35.33, "SPC83CA4"},
    {118.00, 33.50, "SPC83CA5"}, {116.25, 32.17, "SPC83CA6"},
    {105.50, 39.33, "SPC83CO1"}, {105.50, 37.83, "SPC83CO2"},
    {105.50, 36.67, "SPC83CO3"}, {72.75, 40.83, "SPC83CT1"},
    {75.42, 38.00, "SPC83DE1"},  {81.00, 24.33, "SPC83FL1"},
    {82.00, 24.33, "SPC83FL2"},  {84.50, 29.00, "SPC83FL3"},
    {82.17, 30.00, "SPC83GA1"},  {84.17, 30.00, "SPC83GA2"},
    {155.50, 18.83, "SPC83HI1"}, {156.67, 20.33, "SPC83HI2"},
    {158.00, 21.17, "SPC83HI3"}, {159.50, 21.83, "SPC83HI4"},
    {160.17, 21.67, "SPC83HI5"}, {112.17, 41.67, "SPC83ID1"},
    {114.00, 41.67, "SPC83ID2"}, {115.75, 41.67, "SPC83ID3"},
    {88.33, 36.67, "SPC83IL1"},  {90.17, 36.67, "SPC83IL1"},
    {85.67, 37.50, "SPC83IN1"},  {87.08, 37.50, "SPC83IN2"},
    {93.50, 41.50, "SPC83IA1"},  {93.50, 40.00, "SPC83IA1"},
    {98.00, 38.33, "SPC83KS1"},  {98.50, 36.67, "SPC83KS2"},
    {84.25, 37.50, "SPC83KY1"},  {85.75, 36.33, "SPC83KY2"},
    {92.50, 30.50, "SPC83LA1"},  {91.33, 28.50, "SPC83LA2"},
    {91.33, 25.50, "SPC83LA3"},  {92.50, 30.67, "SPC27LA1"},  // NAD27 system
    {91.33, 28.67, "SPC27LA2"},  {91.33, 25.67, "SPC27LA3"},  //
    {68.50, 43.67, "SPC83ME1"},  {68.50, 43.83, "SPC27ME1"},  // NAD27
    {70.17, 42.83, "SPC83ME2"},  {77.00, 37.67, "SPC83MD1"},  //
    {77.00, 37.83, "SPC27MD1"},                               // NAD27
    {71.50, 41.00, "SPC83MA1"},  {70.50, 41.00, "SPC83MA2"},
    {87.00, 44.78, "SPC83MI1"},  {84.37, 43.32, "SPC83MI2"},
    {84.37, 41.50, "SPC83MI3"},  {84.33, 43.32, "SPC27MI2"},  // NAD27 L
    {84.33, 41.50, "SPC27MI3"},                               // NAD27 L
    {83.67, 41.50, "SPC27MI4"},                               // NAD27 TM
    {85.75, 41.50, "SPC27MI5"},                               // NAD27 TM
    {88.75, 41.50, "SPC27MI6"},                               // NAD27 TM
    {93.10, 46.50, "SPC83MN1"},  {94.25, 45.00, "SPC83MN2"},
    {94.00, 43.00, "SPC83MN3"},  {88.83, 29.50, "SPC83MS1"},
    {90.33, 29.50, "SPC83MS2"},  {88.83, 29.67, "SPC83MS1"},  // NAD27
    {90.33, 30.50, "SPC83MS2"},                               //
    {90.50, 35.83, "SPC83MO1"},  {92.50, 35.83, "SPC83MO2"},
    {94.50, 36.17, "SPC83MO3"},  {109.50, 44.25, "SPC83MT1"},
    {109.50, 47.00, "SPC27MT1"},                               // NAD27
    {109.50, 45.83, "SPC27MT2"}, {109.50, 44.00, "SPC27MT3"},  //
    {100.00, 39.83, "SPC83NE1"}, {115.58, 34.75, "SPC83NV1"},
    {116.67, 34.75, "SPC83NV2"}, {118.58, 34.75, "SPC83NV3"},
    {71.67, 42.50, "SPC83NH1"},  {74.50, 38.83, "SPC83NJ1"},
    {74.67, 38.83, "SPC27NJ1"},  // NAD27
    {104.33, 31.00, "SPC83NM1"}, {106.25, 31.00, "SPC83NM2"},
    {107.83, 31.00, "SPC83NM3"}, {74.50, 38.83, "SPC83NY1"},
    {76.58, 40.00, "SPC83NY2"},  {78.58, 40.00, "SPC83NY3"},
    {74.00, 40.17, "SPC83NY4"},  {74.33, 40.00, "SPC27NY1"},  // NAD27
    {74.00, 40.50, "SPC27NY4"},                               //
    {79.00, 33.75, "SPC83NC1"},  {100.50, 47.00, "SPC83ND1"},
    {100.50, 45.67, "SPC83ND2"}, {82.50, 39.67, "SPC83OH1"},
    {82.50, 38.00, "SPC83OH2"},  {98.00, 35.00, "SPC83OK1"},
    {98.00, 33.33, "SPC83OK2"},  {120.50, 43.67, "SPC83OR1"},
    {120.50, 41.67, "SPC83OR2"}, {77.75, 40.17, "SPC83PA1"},
    {77.75, 39.33, "SPC83PA2"},  {71.50, 41.08, "SPC83RI1"},
    {81.00, 31.83, "SPC83SC1"},  {81.00, 33.00, "SPC27SC1"},  // NAD27
    {81.00, 31.83, "SPC27SC2"},                               // NAD27
    {100.00, 43.83, "SPC83SD1"}, {100.33, 42.33, "SPC83SD2"},
    {86.00, 34.33, "SPC83TN1"},  {86.00, 34.67, "SPC27TN1"},  // NAD27
    {101.50, 34.00, "SPC83TX1"},                              //
    {98.50, 31.67, "SPC83TX2"},  {100.33, 29.67, "SPC83TX3"},
    {99.00, 27.83, "SPC83TX4"},  {98.50, 25.67, "SPC83TX5"},
    {97.50, 31.67, "SPC27TX2"},  // NAD27
    {111.50, 40.33, "SPC83UT1"}, {111.50, 38.33, "SPC83UT2"},
    {111.50, 36.67, "SPC83UT3"}, {72.50, 42.50, "SPC83VT1"},
    {78.50, 37.67, "SPC83VA1"},  {78.50, 36.33, "SPC83VA2"},
    {120.83, 47.00, "SPC83WA1"}, {120.50, 45.33, "SPC83WA2"},
    {79.50, 38.50, "SPC83WV1"},  {81.00, 37.00, "SPC83WV2"},
    {90.00, 45.17, "SPC83WI1"},  {90.00, 43.83, "SPC83WI2"},
    {90.00, 42.00, "SPC83WI3"},  {105.17, 40.50, "SPC83WY1"},
    {107.33, 40.50, "SPC83WY2"}, {108.75, 40.50, "SPC83WY3"},
    {110.08, 40.50, "SPC83WY4"}, {105.17, 40.67, "SPC27WY1"},  // NAD27
    {105.33, 40.67, "SPC27WY2"}, {108.75, 40.67, "SPC27WY3"},
    {110.08, 40.67, "SPC27WY4"},  //
    {66.43, 17.83, "SPC83PR1"}};

// Get IDRISI State Plane name by origin
char *GetSpcs(double dfLon, double dfLat);

// change NAD from 83 to 27
void NAD83to27(char *pszOutRef, char *pszInRef);

#define US_STATE_COUNT (sizeof(aoUSStateTable) / sizeof(ReferenceTab))

//----- Get the Code of a US State
int GetStateCode(const char *pszState);

//----- Get the state name of a Code
const char *GetStateName(int nCode);

//----- Conversion Table definition
struct ConversionTab
{
    const char *pszName;
    int nDefaultI;
    int nDefaultG;
    double dfConv;
};

//----- Linear Unit Conversion Table
static const ConversionTab aoLinearUnitsConv[] = {
    {"m", /*  0 */ 0, 1, 1.0},
    {SRS_UL_METER, /*  1 */ 0, 1, 1.0},
    {"meters", /*  2 */ 0, 1, 1.0},
    {"metre", /*  3 */ 0, 1, 1.0},

    {"ft", /*  4 */ 4, 5, 0.3048},
    {SRS_UL_FOOT, /*  5 */ 4, 5, 0.3048},
    {"feet", /*  6 */ 4, 5, 0.3048},
    {"foot_us", /*  7 */ 4, 5, 0.3048006},
    {"u.s. foot", /*  8 */ 4, 5, 0.3048006},

    {"mi", /*  9 */ 9, 10, 1612.9},
    {"mile", /* 10 */ 9, 10, 1612.9},
    {"miles", /* 11 */ 9, 10, 1612.9},

    {"km", /* 12 */ 12, 13, 1000.0},
    {"kilometers", /* 13 */ 12, 13, 1000.0},
    {"kilometer", /* 14 */ 12, 13, 1000.0},
    {"kilometre", /* 15 */ 12, 13, 1000.0},

    {"deg", /* 16 */ 16, 17, 0.0},
    {SRS_UA_DEGREE, /* 17 */ 16, 17, 0.0},
    {"degrees", /* 18 */ 16, 17, 0.0},

    {"rad", /* 19 */ 19, 20, 0.0},
    {SRS_UA_RADIAN, /* 20 */ 19, 20, 0.0},
    {"radians", /* 21 */ 19, 20, 0.0}};
#define LINEAR_UNITS_COUNT (sizeof(aoLinearUnitsConv) / sizeof(ConversionTab))

//----- Get the index of a given linear unit
static int GetUnitIndex(const char *pszUnitName);

//----- Get the default name
static char *GetUnitDefault(const char *pszUnitName,
                            const char *pszToMeter = nullptr);

//----- Get the "to meter"
static int GetToMeterIndex(const char *pszToMeter);

//----- CSLSaveCRLF
static int SaveAsCRLF(char **papszStrList, const char *pszFname);

/************************************************************************/
/*                     myCSLFetchNameValue()                            */
/************************************************************************/

static const char *myCSLFetchNameValue(char **papszStrList, const char *pszName)
{
    if (papszStrList == nullptr || pszName == nullptr)
        return nullptr;

    size_t nLen = strlen(pszName);
    while (nLen > 0 && pszName[nLen - 1] == ' ')
        nLen--;
    while (*papszStrList != nullptr)
    {
        if (EQUALN(*papszStrList, pszName, nLen))
        {
            size_t i;
            for (i = nLen; (*papszStrList)[i] == ' '; ++i)
            {
            }
            if ((*papszStrList)[i] == '=' || (*papszStrList)[i] == ':')
            {
                return (*papszStrList) + i + 1;
            }
        }
        ++papszStrList;
    }
    return nullptr;
}

/************************************************************************/
/*                   myCSLSetNameValueSeparator()                       */
/************************************************************************/

static void myCSLSetNameValueSeparator(char **papszList,
                                       const char *pszSeparator)
{
    const int nLines = CSLCount(papszList);

    for (int iLine = 0; iLine < nLines; ++iLine)
    {
        char *pszSep = strchr(papszList[iLine], '=');
        if (pszSep == nullptr)
            pszSep = strchr(papszList[iLine], ':');
        if (pszSep == nullptr)
            continue;
        *pszSep = '\0';
        const char *pszKey = papszList[iLine];
        const char *pszValue = pszSep + 1;
        while (*pszValue == ' ')
            pszValue++;

        char *pszNewLine = static_cast<char *>(CPLMalloc(
            strlen(pszValue) + strlen(pszKey) + strlen(pszSeparator) + 1));
        strcpy(pszNewLine, pszKey);
        strcat(pszNewLine, pszSeparator);
        strcat(pszNewLine, pszValue);
        CPLFree(papszList[iLine]);
        papszList[iLine] = pszNewLine;
    }
}

//----- Classes pre-definition:
class IdrisiRasterBand;

//  ----------------------------------------------------------------------------
//        Idrisi GDALDataset
//  ----------------------------------------------------------------------------

class IdrisiDataset final : public GDALPamDataset
{
    friend class IdrisiRasterBand;

  private:
    VSILFILE *fp;

    char *pszFilename;
    char *pszDocFilename;
    char **papszRDC;
    double adfGeoTransform[6];

    mutable OGRSpatialReference m_oSRS{};
    char **papszCategories;
    char *pszUnitType;
    // Move GeoReference2Wkt() into header file.
    CPLErr Wkt2GeoReference(const OGRSpatialReference &oSRS,
                            char **pszRefSystem, char **pszRefUnit);

  protected:
    GDALColorTable *poColorTable;

  public:
    IdrisiDataset();
    virtual ~IdrisiDataset();

    static GDALDataset *Open(GDALOpenInfo *poOpenInfo);
    static GDALDataset *Create(const char *pszFilename, int nXSize, int nYSize,
                               int nBands, GDALDataType eType,
                               char **papszOptions);
    static GDALDataset *CreateCopy(const char *pszFilename,
                                   GDALDataset *poSrcDS, int bStrict,
                                   char **papszOptions,
                                   GDALProgressFunc pfnProgress,
                                   void *pProgressData);
    virtual char **GetFileList(void) override;
    virtual CPLErr GetGeoTransform(double *padfTransform) override;
    virtual CPLErr SetGeoTransform(double *padfTransform) override;

    const OGRSpatialReference *GetSpatialRef() const override;
    CPLErr SetSpatialRef(const OGRSpatialReference *poSRS) override;
};

//  ----------------------------------------------------------------------------
//        Idrisi GDALPamRasterBand
//  ----------------------------------------------------------------------------

class IdrisiRasterBand final : public GDALPamRasterBand
{
    friend class IdrisiDataset;

    GDALRasterAttributeTable *poDefaultRAT;

  private:
    int nRecordSize;
    GByte *pabyScanLine;

  public:
    IdrisiRasterBand(IdrisiDataset *poDS, int nBand, GDALDataType eDataType);
    virtual ~IdrisiRasterBand();

    virtual double GetNoDataValue(int *pbSuccess = nullptr) override;
    virtual double GetMinimum(int *pbSuccess = nullptr) override;
    virtual double GetMaximum(int *pbSuccess = nullptr) override;
    virtual CPLErr IReadBlock(int nBlockXOff, int nBlockYOff,
                              void *pImage) override;
    virtual CPLErr IWriteBlock(int nBlockXOff, int nBlockYOff,
                               void *pImage) override;
    virtual GDALColorTable *GetColorTable() override;
    virtual GDALColorInterp GetColorInterpretation() override;
    virtual char **GetCategoryNames() override;
    virtual const char *GetUnitType() override;

    virtual CPLErr SetCategoryNames(char **papszCategoryNames) override;
    virtual CPLErr SetNoDataValue(double dfNoDataValue) override;
    virtual CPLErr SetColorTable(GDALColorTable *poColorTable) override;
    virtual CPLErr SetUnitType(const char *pszUnitType) override;
    virtual CPLErr SetStatistics(double dfMin, double dfMax, double dfMean,
                                 double dfStdDev) override;
    CPLErr SetMinMax(double dfMin, double dfMax);
    virtual GDALRasterAttributeTable *GetDefaultRAT() override;
    virtual CPLErr SetDefaultRAT(const GDALRasterAttributeTable *) override;

    float fMaximum;
    float fMinimum;
    bool bFirstVal;
};

//  ------------------------------------------------------------------------  //
//                        Implementation of IdrisiDataset                     //
//  ------------------------------------------------------------------------  //

/************************************************************************/
/*                           IdrisiDataset()                            */
/************************************************************************/

IdrisiDataset::IdrisiDataset()
    : fp(nullptr), pszFilename(nullptr), pszDocFilename(nullptr),
      papszRDC(nullptr), papszCategories(nullptr), pszUnitType(nullptr),
      poColorTable(new GDALColorTable())
{
    m_oSRS.SetAxisMappingStrategy(OAMS_TRADITIONAL_GIS_ORDER);
    adfGeoTransform[0] = 0.0;
    adfGeoTransform[1] = 1.0;
    adfGeoTransform[2] = 0.0;
    adfGeoTransform[3] = 0.0;
    adfGeoTransform[4] = 0.0;
    adfGeoTransform[5] = 1.0;
}

/************************************************************************/
/*                           ~IdrisiDataset()                           */
/************************************************************************/

IdrisiDataset::~IdrisiDataset()
{
    FlushCache(true);

    if (papszRDC != nullptr && eAccess == GA_Update)
    {
        // int bSuccessMin = FALSE;
        // int bSuccessMax = FALSE;

        double dfMin = 0.0;
        double dfMax = 0.0;
        double dfMean = 0.0;
        double dfStdDev = 0.0;

        for (int i = 0; i < nBands; i++)
        {
            IdrisiRasterBand *poBand = (IdrisiRasterBand *)GetRasterBand(i + 1);
            poBand->ComputeStatistics(false, &dfMin, &dfMax, &dfMean, &dfStdDev,
                                      nullptr, nullptr);
            /*
              dfMin = poBand->GetMinimum( &bSuccessMin );
              dfMax = poBand->GetMaximum( &bSuccessMax );

              if( ! ( bSuccessMin && bSuccessMax ) )
              {
              poBand->GetStatistics( false, true, &dfMin, &dfMax, NULL, NULL );
              }
            */
            poBand->SetMinMax(dfMin, dfMax);
        }

        myCSLSetNameValueSeparator(papszRDC, ": ");
        SaveAsCRLF(papszRDC, pszDocFilename);
    }
    CSLDestroy(papszRDC);

    if (poColorTable)
    {
        delete poColorTable;
    }
    CPLFree(pszFilename);
    CPLFree(pszDocFilename);
    CSLDestroy(papszCategories);
    CPLFree(pszUnitType);

    if (fp != nullptr)
        VSIFCloseL(fp);
}

/************************************************************************/
/*                                Open()                                */
/************************************************************************/

GDALDataset *IdrisiDataset::Open(GDALOpenInfo *poOpenInfo)
{
    if ((poOpenInfo->fpL == nullptr) ||
        (EQUAL(CPLGetExtension(poOpenInfo->pszFilename), extRST) ==
         FALSE))  // modified
        return nullptr;

    // --------------------------------------------------------------------
    //      Check the documentation file .rdc
    // --------------------------------------------------------------------

    const char *pszLDocFilename =
        CPLResetExtension(poOpenInfo->pszFilename, extRDC);

    if (!FileExists(pszLDocFilename))
    {
        pszLDocFilename = CPLResetExtension(poOpenInfo->pszFilename, extRDCu);

        if (!FileExists(pszLDocFilename))
        {
            return nullptr;
        }
    }

    char **papszLRDC = CSLLoad(pszLDocFilename);

    myCSLSetNameValueSeparator(papszLRDC, ":");

    const char *pszVersion = myCSLFetchNameValue(papszLRDC, rdcFILE_FORMAT);

    if (pszVersion == nullptr || !EQUAL(pszVersion, rstVERSION))
    {
        CSLDestroy(papszLRDC);
        return nullptr;
    }

    // --------------------------------------------------------------------
    //      Create a corresponding GDALDataset
    // --------------------------------------------------------------------

    IdrisiDataset *poDS = new IdrisiDataset();
    poDS->eAccess = poOpenInfo->eAccess;
    poDS->pszFilename = CPLStrdup(poOpenInfo->pszFilename);

    if (poOpenInfo->eAccess == GA_ReadOnly)
    {
        poDS->fp = VSIFOpenL(poDS->pszFilename, "rb");
    }
    else
    {
        poDS->fp = VSIFOpenL(poDS->pszFilename, "r+b");
    }

    if (poDS->fp == nullptr)
    {
        CSLDestroy(papszLRDC);
        delete poDS;
        return nullptr;
    }

    poDS->pszDocFilename = CPLStrdup(pszLDocFilename);
    poDS->papszRDC = CSLDuplicate(papszLRDC);
    CSLDestroy(papszLRDC);

    // --------------------------------------------------------------------
    //      Load information from rdc
    // --------------------------------------------------------------------

    poDS->nRasterXSize =
        atoi_nz(myCSLFetchNameValue(poDS->papszRDC, rdcCOLUMNS));
    poDS->nRasterYSize = atoi_nz(myCSLFetchNameValue(poDS->papszRDC, rdcROWS));
    if (!GDALCheckDatasetDimensions(poDS->nRasterXSize, poDS->nRasterYSize))
    {
        delete poDS;
        return nullptr;
    }

    // --------------------------------------------------------------------
    //      Create band information
    // --------------------------------------------------------------------

    const char *pszDataType = myCSLFetchNameValue(poDS->papszRDC, rdcDATA_TYPE);
    if (pszDataType == nullptr)
    {
        delete poDS;
        return nullptr;
    }

    if (EQUAL(pszDataType, rstBYTE))
    {
        poDS->nBands = 1;
        poDS->SetBand(1, new IdrisiRasterBand(poDS, 1, GDT_Byte));
    }
    else if (EQUAL(pszDataType, rstINTEGER))
    {
        poDS->nBands = 1;
        poDS->SetBand(1, new IdrisiRasterBand(poDS, 1, GDT_Int16));
    }
    else if (EQUAL(pszDataType, rstREAL))
    {
        poDS->nBands = 1;
        poDS->SetBand(1, new IdrisiRasterBand(poDS, 1, GDT_Float32));
    }
    else if (EQUAL(pszDataType, rstRGB24))
    {
        poDS->nBands = 3;
        poDS->SetBand(1, new IdrisiRasterBand(poDS, 1, GDT_Byte));
        poDS->SetBand(2, new IdrisiRasterBand(poDS, 2, GDT_Byte));
        poDS->SetBand(3, new IdrisiRasterBand(poDS, 3, GDT_Byte));
    }
    else
    {
        CPLError(CE_Failure, CPLE_AppDefined, "Unknown data type : %s",
                 pszDataType);
        delete poDS;
        return nullptr;
    }

    for (int i = 0; i < poDS->nBands; i++)
    {
        IdrisiRasterBand *band = (IdrisiRasterBand *)poDS->GetRasterBand(i + 1);
        if (band->pabyScanLine == nullptr)
        {
            delete poDS;
            return nullptr;
        }
    }

    // --------------------------------------------------------------------
    //      Load the transformation matrix
    // --------------------------------------------------------------------

    const char *pszMinX = myCSLFetchNameValue(poDS->papszRDC, rdcMIN_X);
    const char *pszMaxX = myCSLFetchNameValue(poDS->papszRDC, rdcMAX_X);
    const char *pszMinY = myCSLFetchNameValue(poDS->papszRDC, rdcMIN_Y);
    const char *pszMaxY = myCSLFetchNameValue(poDS->papszRDC, rdcMAX_Y);
    const char *pszUnit = myCSLFetchNameValue(poDS->papszRDC, rdcUNIT_DIST);

    if (pszMinX != nullptr && strlen(pszMinX) > 0 && pszMaxX != nullptr &&
        strlen(pszMaxX) > 0 && pszMinY != nullptr && strlen(pszMinY) > 0 &&
        pszMaxY != nullptr && strlen(pszMaxY) > 0 && pszUnit != nullptr &&
        strlen(pszUnit) > 0)
    {
        double dfMinX, dfMaxX, dfMinY, dfMaxY, dfUnit, dfXPixSz, dfYPixSz;

        dfMinX = CPLAtof_nz(pszMinX);
        dfMaxX = CPLAtof_nz(pszMaxX);
        dfMinY = CPLAtof_nz(pszMinY);
        dfMaxY = CPLAtof_nz(pszMaxY);
        dfUnit = CPLAtof_nz(pszUnit);

        dfMinX = dfMinX * dfUnit;
        dfMaxX = dfMaxX * dfUnit;
        dfMinY = dfMinY * dfUnit;
        dfMaxY = dfMaxY * dfUnit;

        dfYPixSz = (dfMinY - dfMaxY) / poDS->nRasterYSize;
        dfXPixSz = (dfMaxX - dfMinX) / poDS->nRasterXSize;

        poDS->adfGeoTransform[0] = dfMinX;
        poDS->adfGeoTransform[1] = dfXPixSz;
        poDS->adfGeoTransform[2] = 0.0;
        poDS->adfGeoTransform[3] = dfMaxY;
        poDS->adfGeoTransform[4] = 0.0;
        poDS->adfGeoTransform[5] = dfYPixSz;
    }

    // --------------------------------------------------------------------
    //      Set Color Table in the presence of a smp file
    // --------------------------------------------------------------------

    if (poDS->nBands != 3)
    {
        const char *pszSMPFilename =
            CPLResetExtension(poDS->pszFilename, extSMP);
        VSILFILE *fpSMP = VSIFOpenL(pszSMPFilename, "rb");
        if (fpSMP != nullptr)
        {
            int dfMaxValue =
                atoi_nz(myCSLFetchNameValue(poDS->papszRDC, rdcMAX_VALUE));
            int nCatCount =
                atoi_nz(myCSLFetchNameValue(poDS->papszRDC, rdcLEGEND_CATS));
            if (nCatCount == 0)
                dfMaxValue = 255;
            VSIFSeekL(fpSMP, smpHEADERSIZE, SEEK_SET);
            GDALColorEntry oEntry;
            unsigned char aucRGB[3];
            int i = 0;
            while ((VSIFReadL(&aucRGB, sizeof(aucRGB), 1, fpSMP)) &&
                   (i <= dfMaxValue))
            {
                oEntry.c1 = (short)aucRGB[0];
                oEntry.c2 = (short)aucRGB[1];
                oEntry.c3 = (short)aucRGB[2];
                oEntry.c4 = (short)255;
                poDS->poColorTable->SetColorEntry(i, &oEntry);
                i++;
            }
            VSIFCloseL(fpSMP);
        }
    }

    // --------------------------------------------------------------------
    //      Check for Unit Type
    // --------------------------------------------------------------------

    const char *pszValueUnit =
        myCSLFetchNameValue(poDS->papszRDC, rdcVALUE_UNITS);

    if (pszValueUnit == nullptr)
        poDS->pszUnitType = CPLStrdup("unspecified");
    else
    {
        if (STARTS_WITH_CI(pszValueUnit, "meter"))
        {
            poDS->pszUnitType = CPLStrdup("m");
        }
        else if (STARTS_WITH_CI(pszValueUnit, "feet"))
        {
            poDS->pszUnitType = CPLStrdup("ft");
        }
        else
            poDS->pszUnitType = CPLStrdup(pszValueUnit);
    }

    // --------------------------------------------------------------------
    //      Check for category names.
    // --------------------------------------------------------------------

    int nCatCount =
        atoi_nz(myCSLFetchNameValue(poDS->papszRDC, rdcLEGEND_CATS));

    if (nCatCount > 0)
    {
        // ----------------------------------------------------------------
        //      Sequentialize categories names, from 0 to the last "code n"
        // ----------------------------------------------------------------

        int nLine = -1;
        for (int i = 0; (i < CSLCount(poDS->papszRDC)) && (nLine == -1); i++)
            if (EQUALN(poDS->papszRDC[i], rdcLEGEND_CATS, 11))
                nLine = i;  // get the line where legend cats is

        if (nLine > 0)
        {
            int nCode = 0;
            int nCount = 0;
            sscanf(poDS->papszRDC[++nLine], rdcCODE_N,
                   &nCode);  // assign legend cats to nCode
            for (int i = 0; (i < 255) && (nCount < nCatCount); i++)
            {
                if (i == nCode)
                {
                    poDS->papszCategories = CSLAddString(
                        poDS->papszCategories,
                        CPLParseNameValue(poDS->papszRDC[nLine], nullptr));
                    nCount++;
                    if (nCount < nCatCount)
                        sscanf(poDS->papszRDC[++nLine], rdcCODE_N, &nCode);
                }
                else
                    poDS->papszCategories =
                        CSLAddString(poDS->papszCategories, "");
            }
        }
    }

    /* -------------------------------------------------------------------- */
    /*      Automatic Generated Color Table                                 */
    /* -------------------------------------------------------------------- */

    if (poDS->papszCategories != nullptr &&
        (poDS->poColorTable->GetColorEntryCount() == 0))
    {
        int nEntryCount = CSLCount(poDS->papszCategories);

        GDALColorEntry sFromColor;
        sFromColor.c1 = (short)(255);
        sFromColor.c2 = (short)(0);
        sFromColor.c3 = (short)(0);
        sFromColor.c4 = (short)(255);

        GDALColorEntry sToColor;
        sToColor.c1 = (short)(0);
        sToColor.c2 = (short)(0);
        sToColor.c3 = (short)(255);
        sToColor.c4 = (short)(255);

        poDS->poColorTable->CreateColorRamp(0, &sFromColor, (nEntryCount - 1),
                                            &sToColor);
    }

    /* -------------------------------------------------------------------- */
    /*      Initialize any PAM information.                                 */
    /* -------------------------------------------------------------------- */

    poDS->SetDescription(poOpenInfo->pszFilename);
    poDS->TryLoadXML();

    /* -------------------------------------------------------------------- */
    /*      Check for external overviews.                                   */
    /* -------------------------------------------------------------------- */

    poDS->oOvManager.Initialize(poDS, poOpenInfo->pszFilename);

    return poDS;
}

/************************************************************************/
/*                               Create()                               */
/************************************************************************/

GDALDataset *IdrisiDataset::Create(const char *pszFilename, int nXSize,
                                   int nYSize, int nBandsIn, GDALDataType eType,
                                   char ** /* papszOptions */)
{
    // --------------------------------------------------------------------
    //      Check input options
    // --------------------------------------------------------------------

    if (nBandsIn != 1 && nBandsIn != 3)
    {
        CPLError(CE_Failure, CPLE_AppDefined,
                 "Attempt to create IDRISI dataset with an illegal number of "
                 "bands(%d)."
                 " Try again by selecting a specific band if possible. \n",
                 nBandsIn);
        return nullptr;
    }

    if (nBandsIn == 3 && eType != GDT_Byte)
    {
        CPLError(
            CE_Failure, CPLE_AppDefined,
            "Attempt to create IDRISI dataset with an unsupported combination "
            "of the number of bands(%d) and data type(%s). \n",
            nBandsIn, GDALGetDataTypeName(eType));
        return nullptr;
    }

    // ----------------------------------------------------------------
    //  Create the header file with minimum information
    // ----------------------------------------------------------------

    const char *pszLDataType = nullptr;

    switch (eType)
    {
        case GDT_Byte:
            if (nBandsIn == 1)
                pszLDataType = rstBYTE;
            else
                pszLDataType = rstRGB24;
            break;
        case GDT_Int16:
            pszLDataType = rstINTEGER;
            break;
        case GDT_Float32:
            pszLDataType = rstREAL;
            break;
        //--- process compatible data types
        case (GDT_UInt16):
            pszLDataType = rstINTEGER;
            CPLError(CE_Warning, CPLE_AppDefined,
                     "This process requires a conversion from %s to signed "
                     "16-bit %s, "
                     "which may cause data loss.\n",
                     GDALGetDataTypeName(eType), rstINTEGER);
            break;
        case GDT_UInt32:
            pszLDataType = rstINTEGER;
            CPLError(CE_Warning, CPLE_AppDefined,
                     "This process requires a conversion from %s to signed "
                     "16-bit %s, "
                     "which may cause data loss.\n",
                     GDALGetDataTypeName(eType), rstINTEGER);
            break;
        case GDT_Int32:
            pszLDataType = rstINTEGER;
            CPLError(CE_Warning, CPLE_AppDefined,
                     "This process requires a conversion from %s to signed "
                     "16-bit %s, "
                     "which may cause data loss.\n",
                     GDALGetDataTypeName(eType), rstINTEGER);
            break;
        case GDT_Float64:
            pszLDataType = rstREAL;
            CPLError(CE_Warning, CPLE_AppDefined,
                     "This process requires a conversion from %s to float "
                     "32-bit %s, "
                     "which may cause data loss.\n",
                     GDALGetDataTypeName(eType), rstREAL);
            break;
        default:
            CPLError(CE_Failure, CPLE_AppDefined,
                     "Attempt to create IDRISI dataset with an illegal "
                     "data type(%s).\n",
                     GDALGetDataTypeName(eType));
            return nullptr;
    };

    char **papszLRDC = nullptr;
    papszLRDC = CSLAddNameValue(papszLRDC, rdcFILE_FORMAT, rstVERSION);
    papszLRDC = CSLAddNameValue(papszLRDC, rdcFILE_TITLE, "");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcDATA_TYPE, pszLDataType);
    papszLRDC = CSLAddNameValue(papszLRDC, rdcFILE_TYPE, "binary");
    papszLRDC =
        CSLAddNameValue(papszLRDC, rdcCOLUMNS, CPLSPrintf("%d", nXSize));
    papszLRDC = CSLAddNameValue(papszLRDC, rdcROWS, CPLSPrintf("%d", nYSize));
    papszLRDC = CSLAddNameValue(papszLRDC, rdcREF_SYSTEM, "plane");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcREF_UNITS, "m");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcUNIT_DIST, "1");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcMIN_X, "0");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcMAX_X, CPLSPrintf("%d", nXSize));
    papszLRDC = CSLAddNameValue(papszLRDC, rdcMIN_Y, "0");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcMAX_Y, CPLSPrintf("%d", nYSize));
    papszLRDC = CSLAddNameValue(papszLRDC, rdcPOSN_ERROR, "unspecified");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcRESOLUTION, "1.0");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcMIN_VALUE, "0");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcMAX_VALUE, "0");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcDISPLAY_MIN, "0");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcDISPLAY_MAX, "0");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcVALUE_UNITS, "unspecified");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcVALUE_ERROR, "unspecified");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcFLAG_VALUE, "none");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcFLAG_DEFN, "none");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcLEGEND_CATS, "0");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcLINEAGES, "");
    papszLRDC = CSLAddNameValue(papszLRDC, rdcCOMMENTS, "");

    const char *pszLDocFilename = CPLResetExtension(pszFilename, extRDC);

    myCSLSetNameValueSeparator(papszLRDC, ": ");
    SaveAsCRLF(papszLRDC, pszLDocFilename);
    CSLDestroy(papszLRDC);

    // ----------------------------------------------------------------
    //  Create an empty data file
    // ----------------------------------------------------------------

    VSILFILE *fp = VSIFOpenL(pszFilename, "wb+");

    if (fp == nullptr)
    {
        CPLError(CE_Failure, CPLE_OpenFailed,
                 "Attempt to create file %s' failed.\n", pszFilename);
        return nullptr;
    }

    const int nTargetDTSize = EQUAL(pszLDataType, rstBYTE)      ? 1
                              : EQUAL(pszLDataType, rstINTEGER) ? 2
                              : EQUAL(pszLDataType, rstRGB24)   ? 3
                                                                : 4;
    VSIFTruncateL(fp,
                  static_cast<vsi_l_offset>(nXSize) * nYSize * nTargetDTSize);
    VSIFCloseL(fp);

    return (IdrisiDataset *)GDALOpen(pszFilename, GA_Update);
}

/************************************************************************/
/*                             CreateCopy()                             */
/************************************************************************/

GDALDataset *IdrisiDataset::CreateCopy(const char *pszFilename,
                                       GDALDataset *poSrcDS, int bStrict,
                                       char **papszOptions,
                                       GDALProgressFunc pfnProgress,
                                       void *pProgressData)
{
    if (!pfnProgress(0.0, nullptr, pProgressData))
        return nullptr;

    // ------------------------------------------------------------------------
    //      Check number of bands
    // ------------------------------------------------------------------------
    if (!(poSrcDS->GetRasterCount() == 1) && !(poSrcDS->GetRasterCount() == 3))
    {
        CPLError(CE_Failure, CPLE_AppDefined,
                 "Attempt to create IDRISI dataset with an illegal number of "
                 "bands(%d)."
                 " Try again by selecting a specific band if possible.\n",
                 poSrcDS->GetRasterCount());
        return nullptr;
    }
    if ((poSrcDS->GetRasterCount() == 3) &&
        ((poSrcDS->GetRasterBand(1)->GetRasterDataType() != GDT_Byte) ||
         (poSrcDS->GetRasterBand(2)->GetRasterDataType() != GDT_Byte) ||
         (poSrcDS->GetRasterBand(3)->GetRasterDataType() != GDT_Byte)))
    {
        CPLError(
            CE_Failure, CPLE_AppDefined,
            "Attempt to create IDRISI dataset with an unsupported "
            "data type when there are three bands. Only BYTE allowed.\n"
            "Try again by selecting a specific band to convert if possible.\n");
        return nullptr;
    }

    // ------------------------------------------------------------------------
    //      Check Data types
    // ------------------------------------------------------------------------

    for (int i = 1; i <= poSrcDS->GetRasterCount(); i++)
    {
        GDALDataType eType = poSrcDS->GetRasterBand(i)->GetRasterDataType();

        if (bStrict)
        {
            if (eType != GDT_Byte && eType != GDT_Int16 && eType != GDT_Float32)
            {
                CPLError(CE_Failure, CPLE_AppDefined,
                         "Attempt to create IDRISI dataset in strict mode "
                         "with an illegal data type(%s).\n",
                         GDALGetDataTypeName(eType));
                return nullptr;
            }
        }
        else
        {
            if (eType != GDT_Byte && eType != GDT_Int16 &&
                eType != GDT_UInt16 && eType != GDT_UInt32 &&
                eType != GDT_Int32 && eType != GDT_Float32 &&
                eType != GDT_Float64)
            {
                CPLError(CE_Failure, CPLE_AppDefined,
                         "Attempt to create IDRISI dataset with an illegal "
                         "data type(%s).\n",
                         GDALGetDataTypeName(eType));
                return nullptr;
            }
        }
    }

    // --------------------------------------------------------------------
    //      Define data type
    // --------------------------------------------------------------------

    GDALRasterBand *poBand = poSrcDS->GetRasterBand(1);
    GDALDataType eType = poBand->GetRasterDataType();

    int bSuccessMin = FALSE;
    int bSuccessMax = FALSE;

    double dfMin = poBand->GetMinimum(&bSuccessMin);
    double dfMax = poBand->GetMaximum(&bSuccessMax);

    if (!(bSuccessMin && bSuccessMax))
    {
        poBand->GetStatistics(false, true, &dfMin, &dfMax, nullptr, nullptr);
    }

    if (!((eType == GDT_Byte) || (eType == GDT_Int16) ||
          (eType == GDT_Float32)))
    {
        if (eType == GDT_Float64)
        {
            eType = GDT_Float32;
        }
        else
        {
            if ((dfMin < (double)SHRT_MIN) || (dfMax > (double)SHRT_MAX))
            {
                eType = GDT_Float32;
            }
            else
            {
                eType = GDT_Int16;
            }
        }
    }

    // --------------------------------------------------------------------
    //      Create the dataset
    // --------------------------------------------------------------------

    IdrisiDataset *poDS = (IdrisiDataset *)IdrisiDataset::Create(
        pszFilename, poSrcDS->GetRasterXSize(), poSrcDS->GetRasterYSize(),
        poSrcDS->GetRasterCount(), eType, papszOptions);

    if (poDS == nullptr)
        return nullptr;

    // --------------------------------------------------------------------
    //      Copy information to the dataset
    // --------------------------------------------------------------------

    double adfGeoTransform[6];
    if (poSrcDS->GetGeoTransform(adfGeoTransform) == CE_None)
    {
        poDS->SetGeoTransform(adfGeoTransform);
    }

    if (!EQUAL(poSrcDS->GetProjectionRef(), ""))
    {
        poDS->SetProjection(poSrcDS->GetProjectionRef());
    }

    // --------------------------------------------------------------------
    //      Copy information to the raster band(s)
    // --------------------------------------------------------------------

    for (int i = 1; i <= poDS->nBands; i++)
    {
        GDALRasterBand *poSrcBand = poSrcDS->GetRasterBand(i);
        IdrisiRasterBand *poDstBand =
            (IdrisiRasterBand *)poDS->GetRasterBand(i);

        if (poDS->nBands == 1)
        {
            poDstBand->SetUnitType(poSrcBand->GetUnitType());
            poDstBand->SetColorTable(poSrcBand->GetColorTable());
            poDstBand->SetCategoryNames(poSrcBand->GetCategoryNames());

            const GDALRasterAttributeTable *poRAT = poSrcBand->GetDefaultRAT();

            if (poRAT != nullptr)
            {
                poDstBand->SetDefaultRAT(poRAT);
            }
        }

        dfMin = poSrcBand->GetMinimum(nullptr);
        dfMax = poSrcBand->GetMaximum(nullptr);
        poDstBand->SetMinMax(dfMin, dfMax);
        int bHasNoDataValue;
        double dfNoDataValue = poSrcBand->GetNoDataValue(&bHasNoDataValue);
        if (bHasNoDataValue)
            poDstBand->SetNoDataValue(dfNoDataValue);
    }

    // --------------------------------------------------------------------
    //      Copy image data
    // --------------------------------------------------------------------

    if (GDALDatasetCopyWholeRaster((GDALDatasetH)poSrcDS, (GDALDatasetH)poDS,
                                   nullptr, pfnProgress,
                                   pProgressData) != CE_None)
    {
        delete poDS;
        return nullptr;
    }

    // --------------------------------------------------------------------
    //      Finalize
    // --------------------------------------------------------------------

    poDS->FlushCache(false);

    return poDS;
}

/************************************************************************/
/*                            GetFileList()                             */
/************************************************************************/

char **IdrisiDataset::GetFileList()
{
    char **papszFileList = GDALPamDataset::GetFileList();

    // --------------------------------------------------------------------
    //      Symbol table file
    // --------------------------------------------------------------------

    const char *pszAssociated = CPLResetExtension(pszFilename, extSMP);

    if (FileExists(pszAssociated))
    {
        papszFileList = CSLAddString(papszFileList, pszAssociated);
    }
    else
    {
        pszAssociated = CPLResetExtension(pszFilename, extSMPu);

        if (FileExists(pszAssociated))
        {
            papszFileList = CSLAddString(papszFileList, pszAssociated);
        }
    }

    // --------------------------------------------------------------------
    //      Documentation file
    // --------------------------------------------------------------------

    pszAssociated = CPLResetExtension(pszFilename, extRDC);

    if (FileExists(pszAssociated))
    {
        papszFileList = CSLAddString(papszFileList, pszAssociated);
    }
    else
    {
        pszAssociated = CPLResetExtension(pszFilename, extRDCu);

        if (FileExists(pszAssociated))
        {
            papszFileList = CSLAddString(papszFileList, pszAssociated);
        }
    }

    // --------------------------------------------------------------------
    //      Reference file
    // --------------------------------------------------------------------

    pszAssociated = CPLResetExtension(pszFilename, extREF);

    if (FileExists(pszAssociated))
    {
        papszFileList = CSLAddString(papszFileList, pszAssociated);
    }
    else
    {
        pszAssociated = CPLResetExtension(pszFilename, extREFu);

        if (FileExists(pszAssociated))
        {
            papszFileList = CSLAddString(papszFileList, pszAssociated);
        }
    }

    return papszFileList;
}

/************************************************************************/
/*                          GetGeoTransform()                           */
/************************************************************************/

CPLErr IdrisiDataset::GetGeoTransform(double *padfTransform)
{
    if (GDALPamDataset::GetGeoTransform(padfTransform) != CE_None)
    {
        memcpy(padfTransform, adfGeoTransform, sizeof(double) * 6);
        /*
if( adfGeoTransform[0] == 0.0
&&  adfGeoTransform[1] == 1.0
&&  adfGeoTransform[2] == 0.0
&&  adfGeoTransform[3] == 0.0
&&  adfGeoTransform[4] == 0.0
&&  adfGeoTransform[5] == 1.0 )
    return CE_Failure;
        */
    }

    return CE_None;
}

/************************************************************************/
/*                          SetGeoTransform()                           */
/************************************************************************/

CPLErr IdrisiDataset::SetGeoTransform(double *padfTransform)
{
    if (padfTransform[2] != 0.0 || padfTransform[4] != 0.0)
    {
        CPLError(CE_Failure, CPLE_AppDefined,
                 "Attempt to set rotated geotransform on Idrisi Raster file.\n"
                 "Idrisi Raster does not support rotation.\n");
        return CE_Failure;
    }

    // --------------------------------------------------------------------
    // Update the .rdc file
    // --------------------------------------------------------------------

    double dfXPixSz = padfTransform[1];
    double dfYPixSz = padfTransform[5];
    double dfMinX = padfTransform[0];
    double dfMaxX = (dfXPixSz * nRasterXSize) + dfMinX;

    double dfMinY, dfMaxY;
    if (dfYPixSz < 0)
    {
        dfMaxY = padfTransform[3];
        dfMinY = (dfYPixSz * nRasterYSize) + padfTransform[3];
    }
    else
    {
        dfMaxY = (dfYPixSz * nRasterYSize) + padfTransform[3];
        dfMinY = padfTransform[3];
    }

    papszRDC = CSLSetNameValue(papszRDC, rdcMIN_X, CPLSPrintf("%.7f", dfMinX));
    papszRDC = CSLSetNameValue(papszRDC, rdcMAX_X, CPLSPrintf("%.7f", dfMaxX));
    papszRDC = CSLSetNameValue(papszRDC, rdcMIN_Y, CPLSPrintf("%.7f", dfMinY));
    papszRDC = CSLSetNameValue(papszRDC, rdcMAX_Y, CPLSPrintf("%.7f", dfMaxY));
    papszRDC = CSLSetNameValue(papszRDC, rdcRESOLUTION,
                               CPLSPrintf("%.7f", fabs(dfYPixSz)));

    // --------------------------------------------------------------------
    // Update the Dataset attribute
    // --------------------------------------------------------------------

    memcpy(adfGeoTransform, padfTransform, sizeof(double) * 6);

    return CE_None;
}

/************************************************************************/
/*                          GetSpatialRef()                             */
/************************************************************************/

const OGRSpatialReference *IdrisiDataset::GetSpatialRef() const
{
    const auto poSRS = GDALPamDataset::GetSpatialRef();
    if (poSRS)
        return poSRS;

    if (m_oSRS.IsEmpty())
    {
        const char *pszRefSystem = myCSLFetchNameValue(papszRDC, rdcREF_SYSTEM);
        const char *pszRefUnit = myCSLFetchNameValue(papszRDC, rdcREF_UNITS);
        if (pszRefSystem != nullptr && pszRefUnit != nullptr)
            IdrisiGeoReference2Wkt(pszFilename, pszRefSystem, pszRefUnit,
                                   m_oSRS);
    }
    return m_oSRS.IsEmpty() ? nullptr : &m_oSRS;
}

/************************************************************************/
/*                           SetProjection()                            */
/************************************************************************/

CPLErr IdrisiDataset::SetSpatialRef(const OGRSpatialReference *poSRS)
{
    m_oSRS.Clear();
    if (poSRS)
        m_oSRS = *poSRS;

    char *pszRefSystem = nullptr;
    char *pszRefUnit = nullptr;

    CPLErr eResult = Wkt2GeoReference(m_oSRS, &pszRefSystem, &pszRefUnit);

    papszRDC = CSLSetNameValue(papszRDC, rdcREF_SYSTEM, pszRefSystem);
    papszRDC = CSLSetNameValue(papszRDC, rdcREF_UNITS, pszRefUnit);

    CPLFree(pszRefSystem);
    CPLFree(pszRefUnit);

    return eResult;
}

/************************************************************************/
/*                          IdrisiRasterBand()                          */
/************************************************************************/

IdrisiRasterBand::IdrisiRasterBand(IdrisiDataset *poDSIn, int nBandIn,
                                   GDALDataType eDataTypeIn)
    : poDefaultRAT(nullptr),
      nRecordSize(poDSIn->GetRasterXSize() * poDSIn->nBands *
                  GDALGetDataTypeSizeBytes(eDataTypeIn)),
      pabyScanLine(static_cast<GByte *>(VSI_MALLOC3_VERBOSE(
          poDSIn->GetRasterXSize(), GDALGetDataTypeSizeBytes(eDataTypeIn),
          poDSIn->nBands))),
      fMaximum(0.0), fMinimum(0.0), bFirstVal(true)
{
    poDS = poDSIn;
    nBand = nBandIn;
    eDataType = eDataTypeIn;
    nBlockYSize = 1;
    nBlockXSize = poDS->GetRasterXSize();
}

/************************************************************************/
/*                         ~IdrisiRasterBand()                          */
/************************************************************************/

IdrisiRasterBand::~IdrisiRasterBand()
{
    CPLFree(pabyScanLine);

    if (poDefaultRAT)
    {
        delete poDefaultRAT;
    }
}

/************************************************************************/
/*                             IReadBlock()                             */
/************************************************************************/

CPLErr IdrisiRasterBand::IReadBlock(int nBlockXOff, int nBlockYOff,
                                    void *pImage)
{
    IdrisiDataset *poGDS = (IdrisiDataset *)poDS;

    if (VSIFSeekL(poGDS->fp, vsi_l_offset(nRecordSize) * nBlockYOff, SEEK_SET) <
        0)
    {
        CPLError(CE_Failure, CPLE_FileIO,
                 "Can't seek(%s) block with X offset %d and Y offset %d.\n%s",
                 poGDS->pszFilename, nBlockXOff, nBlockYOff,
                 VSIStrerror(errno));
        return CE_Failure;
    }

    if ((int)VSIFReadL(pabyScanLine, 1, nRecordSize, poGDS->fp) < nRecordSize)
    {
        CPLError(CE_Failure, CPLE_FileIO,
                 "Can't read(%s) block with X offset %d and Y offset %d.\n%s",
                 poGDS->pszFilename, nBlockXOff, nBlockYOff,
                 VSIStrerror(errno));
        return CE_Failure;
    }

    if (poGDS->nBands == 3)
    {
        for (int i = 0, j = (3 - nBand); i < nBlockXSize; i++, j += 3)
        {
            ((GByte *)pImage)[i] = pabyScanLine[j];
        }
    }
    else
    {
        memcpy(pImage, pabyScanLine, nRecordSize);
    }

#ifdef CPL_MSB
    if (eDataType == GDT_Float32)
        GDALSwapWords(pImage, 4, nBlockXSize * nBlockYSize, 4);
#endif

    return CE_None;
}

/************************************************************************/
/*                            IWriteBlock()                             */
/************************************************************************/

CPLErr IdrisiRasterBand::IWriteBlock(int nBlockXOff, int nBlockYOff,
                                     void *pImage)
{
    IdrisiDataset *poGDS = (IdrisiDataset *)poDS;

#ifdef CPL_MSB
    // Swap in input buffer if needed.
    if (eDataType == GDT_Float32)
        GDALSwapWords(pImage, 4, nBlockXSize * nBlockYSize, 4);
#endif

    if (poGDS->nBands == 1)
    {
        memcpy(pabyScanLine, pImage, nRecordSize);
    }
    else
    {
        if (nBand > 1)
        {
            VSIFSeekL(poGDS->fp, vsi_l_offset(nRecordSize) * nBlockYOff,
                      SEEK_SET);
            VSIFReadL(pabyScanLine, 1, nRecordSize, poGDS->fp);
        }
        int i, j;
        for (i = 0, j = (3 - nBand); i < nBlockXSize; i++, j += 3)
        {
            pabyScanLine[j] = ((GByte *)pImage)[i];
        }
    }

#ifdef CPL_MSB
    // Swap input buffer back to original form.
    if (eDataType == GDT_Float32)
        GDALSwapWords(pImage, 4, nBlockXSize * nBlockYSize, 4);
#endif

    VSIFSeekL(poGDS->fp, vsi_l_offset(nRecordSize) * nBlockYOff, SEEK_SET);

    if ((int)VSIFWriteL(pabyScanLine, 1, nRecordSize, poGDS->fp) < nRecordSize)
    {
        CPLError(CE_Failure, CPLE_FileIO,
                 "Can't write(%s) block with X offset %d and Y offset %d.\n%s",
                 poGDS->pszFilename, nBlockXOff, nBlockYOff,
                 VSIStrerror(errno));
        return CE_Failure;
    }

    int bHasNoDataValue = FALSE;
    float fNoDataValue = (float)GetNoDataValue(&bHasNoDataValue);

    // --------------------------------------------------------------------
    //      Search for the minimum and maximum values
    // --------------------------------------------------------------------

    if (eDataType == GDT_Float32)
    {
        for (int i = 0; i < nBlockXSize; i++)
        {
            float fVal = ((float *)pabyScanLine)[i];  // this is fine
            if (!bHasNoDataValue || fVal != fNoDataValue)
            {
                if (bFirstVal)
                {
                    fMinimum = fVal;
                    fMaximum = fVal;
                    bFirstVal = false;
                }
                else
                {
                    if (fVal < fMinimum)
                        fMinimum = fVal;
                    if (fVal > fMaximum)
                        fMaximum = fVal;
                }
            }
        }
    }
    else if (eDataType == GDT_Int16)
    {
        for (int i = 0; i < nBlockXSize; i++)
        {
            float fVal = (float)((GInt16 *)pabyScanLine)[i];
            if (!bHasNoDataValue || fVal != fNoDataValue)
            {
                if (bFirstVal)
                {
                    fMinimum = fVal;
                    fMaximum = fVal;
                    bFirstVal = false;
                }
                else
                {
                    if (fVal < fMinimum)
                        fMinimum = fVal;
                    if (fVal > fMaximum)
                        fMaximum = fVal;
                }
            }
        }
    }
    else if (poGDS->nBands == 1)
    {
        for (int i = 0; i < nBlockXSize; i++)
        {
            float fVal = (float)((GByte *)pabyScanLine)[i];
            if (!bHasNoDataValue || fVal != fNoDataValue)
            {
                if (bFirstVal)
                {
                    fMinimum = fVal;
                    fMaximum = fVal;
                    bFirstVal = false;
                }
                else
                {
                    if (fVal < fMinimum)
                        fMinimum =
                            fVal;  // I don't change this part, keep it as it is
                    if (fVal > fMaximum)
                        fMaximum = fVal;
                }
            }
        }
    }
    else
    {
        for (int i = 0, j = (3 - nBand); i < nBlockXSize; i++, j += 3)
        {
            float fVal = (float)((GByte *)pabyScanLine)[j];
            if (!bHasNoDataValue || fVal != fNoDataValue)
            {
                if (bFirstVal)
                {
                    fMinimum = fVal;
                    fMaximum = fVal;
                    bFirstVal = false;
                }
                else
                {
                    if (fVal < fMinimum)
                        fMinimum = fVal;
                    if (fVal > fMaximum)
                        fMaximum = fVal;
                }
            }
        }
    }

    return CE_None;
}

/************************************************************************/
/*                             GetMinimum()                             */
/************************************************************************/

double IdrisiRasterBand::GetMinimum(int *pbSuccess)
{
    IdrisiDataset *poGDS = (IdrisiDataset *)poDS;

    if (myCSLFetchNameValue(poGDS->papszRDC, rdcMIN_VALUE) == nullptr)
        return GDALPamRasterBand::GetMinimum(pbSuccess);

    double adfMinValue[3];
    CPLsscanf(myCSLFetchNameValue(poGDS->papszRDC, rdcMIN_VALUE), "%lf %lf %lf",
              &adfMinValue[0], &adfMinValue[1], &adfMinValue[2]);

    if (pbSuccess)
    {
        *pbSuccess = true;
    }

    return adfMinValue[this->nBand - 1];
}

/************************************************************************/
/*                             GetMaximum()                             */
/************************************************************************/

double IdrisiRasterBand::GetMaximum(int *pbSuccess)
{
    IdrisiDataset *poGDS = (IdrisiDataset *)poDS;

    if (myCSLFetchNameValue(poGDS->papszRDC, rdcMAX_VALUE) == nullptr)
        return GDALPamRasterBand::GetMaximum(pbSuccess);

    double adfMaxValue[3];
    CPLsscanf(myCSLFetchNameValue(poGDS->papszRDC, rdcMAX_VALUE), "%lf %lf %lf",
              &adfMaxValue[0], &adfMaxValue[1], &adfMaxValue[2]);

    if (pbSuccess)
    {
        *pbSuccess = true;
    }

    return adfMaxValue[this->nBand - 1];
}

/************************************************************************/
/*                           GetNoDataValue()                           */
/************************************************************************/

double IdrisiRasterBand::GetNoDataValue(int *pbSuccess)
{
    IdrisiDataset *poGDS = (IdrisiDataset *)poDS;

    const char *pszFlagDefn = nullptr;

    if (myCSLFetchNameValue(poGDS->papszRDC, rdcFLAG_DEFN) != nullptr)
        pszFlagDefn = myCSLFetchNameValue(poGDS->papszRDC, rdcFLAG_DEFN);
    else if (myCSLFetchNameValue(poGDS->papszRDC, rdcFLAG_DEFN2) != nullptr)
        pszFlagDefn = myCSLFetchNameValue(poGDS->papszRDC, rdcFLAG_DEFN2);

    // ------------------------------------------------------------------------
    // If Flag_Def is not "none", Flag_Value means "background"
    // or "missing data"
    // ------------------------------------------------------------------------

    double dfNoData;
    if (pszFlagDefn != nullptr && !EQUAL(pszFlagDefn, "none"))
    {
        dfNoData =
            CPLAtof_nz(myCSLFetchNameValue(poGDS->papszRDC, rdcFLAG_VALUE));
        if (pbSuccess)
            *pbSuccess = TRUE;
    }
    else
    {
        dfNoData = -9999.0; /* this value should be ignored */
        if (pbSuccess)
            *pbSuccess = FALSE;
    }

    return dfNoData;
}

/************************************************************************/
/*                           SetNoDataValue()                           */
/************************************************************************/

CPLErr IdrisiRasterBand::SetNoDataValue(double dfNoDataValue)
{
    IdrisiDataset *poGDS = (IdrisiDataset *)poDS;

    poGDS->papszRDC = CSLSetNameValue(poGDS->papszRDC, rdcFLAG_VALUE,
                                      CPLSPrintf("%.7g", dfNoDataValue));
    poGDS->papszRDC =
        CSLSetNameValue(poGDS->papszRDC, rdcFLAG_DEFN, "missing data");

    return CE_None;
}

/************************************************************************/
/*                       GetColorInterpretation()                       */
/************************************************************************/

GDALColorInterp IdrisiRasterBand::GetColorInterpretation()
{
    IdrisiDataset *poGDS = (IdrisiDataset *)poDS;

    if (poGDS->nBands == 3)
    {
        switch (nBand)
        {
            case 1:
                return GCI_BlueBand;
            case 2:
                return GCI_GreenBand;
            case 3:
                return GCI_RedBand;
        }
    }
    else if (poGDS->poColorTable->GetColorEntryCount() > 0)
    {
        return GCI_PaletteIndex;
    }
    return GCI_GrayIndex;
}

/************************************************************************/
/*                          GetCategoryNames()                          */
/************************************************************************/

char **IdrisiRasterBand::GetCategoryNames()
{
    IdrisiDataset *poGDS = (IdrisiDataset *)poDS;

    return poGDS->papszCategories;
}

/************************************************************************/
/*                          SetCategoryNames()                          */
/************************************************************************/

CPLErr IdrisiRasterBand::SetCategoryNames(char **papszCategoryNames)
{
    const int nCatCount = CSLCount(papszCategoryNames);

    if (nCatCount == 0)
        return CE_None;

    IdrisiDataset *poGDS = (IdrisiDataset *)poDS;

    CSLDestroy(poGDS->papszCategories);
    poGDS->papszCategories = CSLDuplicate(papszCategoryNames);

    // ------------------------------------------------------
    //        Search for the "Legend cats  : N" line
    // ------------------------------------------------------

    int nLine = -1;
    for (int i = 0; (i < CSLCount(poGDS->papszRDC)) && (nLine == -1); i++)
        if (EQUALN(poGDS->papszRDC[i], rdcLEGEND_CATS, 12))
            nLine = i;

    if (nLine < 0)
        return CE_None;

    int nCount = atoi_nz(myCSLFetchNameValue(poGDS->papszRDC, rdcLEGEND_CATS));

    // ------------------------------------------------------
    //        Delete old instance of the category names
    // ------------------------------------------------------

    if (nCount > 0)
        poGDS->papszRDC =
            CSLRemoveStrings(poGDS->papszRDC, nLine + 1, nCount, nullptr);

    nCount = 0;

    for (int i = 0; i < nCatCount; i++)
    {
        if ((strlen(papszCategoryNames[i]) > 0))
        {
            poGDS->papszRDC =
                CSLInsertString(poGDS->papszRDC, (nLine + nCount + 1),
                                CPLSPrintf("%s:%s", CPLSPrintf(rdcCODE_N, i),
                                           papszCategoryNames[i]));
            nCount++;
        }
    }

    poGDS->papszRDC =
        CSLSetNameValue(poGDS->papszRDC, rdcLEGEND_CATS,
                        CPLSPrintf("%d", nCount));  // this is fine

    return CE_None;
}

/************************************************************************/
/*                           GetColorTable()                            */
/************************************************************************/

GDALColorTable *IdrisiRasterBand::GetColorTable()
{
    IdrisiDataset *poGDS = (IdrisiDataset *)poDS;

    if (poGDS->poColorTable->GetColorEntryCount() == 0)
    {
        return nullptr;
    }

    return poGDS->poColorTable;
}

/************************************************************************/
/*                           SetColorTable()                            */
/************************************************************************/

CPLErr IdrisiRasterBand::SetColorTable(GDALColorTable *poColorTable)
{
    if (poColorTable == nullptr)
    {
        return CE_None;
    }

    if (poColorTable->GetColorEntryCount() == 0)
    {
        return CE_None;
    }

    IdrisiDataset *poGDS = (IdrisiDataset *)poDS;

    delete poGDS->poColorTable;

    poGDS->poColorTable = poColorTable->Clone();

    const char *pszSMPFilename = CPLResetExtension(poGDS->pszFilename, extSMP);
    VSILFILE *fpSMP = VSIFOpenL(pszSMPFilename, "w");

    if (fpSMP != nullptr)
    {
        VSIFWriteL("[Idrisi]", 8, 1, fpSMP);
        GByte nPlatform = 1;
        VSIFWriteL(&nPlatform, 1, 1, fpSMP);
        GByte nVersion = 11;
        VSIFWriteL(&nVersion, 1, 1, fpSMP);
        GByte nDepth = 8;
        VSIFWriteL(&nDepth, 1, 1, fpSMP);
        GByte nHeadSz = 18;
        VSIFWriteL(&nHeadSz, 1, 1, fpSMP);
        GUInt16 nCount = 255;
        VSIFWriteL(&nCount, 2, 1, fpSMP);
        GUInt16 nMix = 0;
        VSIFWriteL(&nMix, 2, 1, fpSMP);
        GUInt16 nMax = 255;
        VSIFWriteL(&nMax, 2, 1, fpSMP);

        GDALColorEntry oEntry;
        GByte aucRGB[3];

        for (int i = 0; i < poColorTable->GetColorEntryCount(); i++)
        {
            poColorTable->GetColorEntryAsRGB(i, &oEntry);
            aucRGB[0] = (GByte)oEntry.c1;
            aucRGB[1] = (GByte)oEntry.c2;
            aucRGB[2] = (GByte)oEntry.c3;
            VSIFWriteL(&aucRGB, 3, 1, fpSMP);
        }
        /* smp files always have 256 occurrences. */
        for (int i = poColorTable->GetColorEntryCount(); i <= 255; i++)
        {
            poColorTable->GetColorEntryAsRGB(i, &oEntry);
            aucRGB[0] = (GByte)0;
            aucRGB[1] = (GByte)0;
            aucRGB[2] = (GByte)0;
            VSIFWriteL(&aucRGB, 3, 1, fpSMP);
        }
        VSIFCloseL(fpSMP);
    }

    return CE_None;
}

/************************************************************************/
/*                           GetUnitType()                              */
/************************************************************************/

const char *IdrisiRasterBand::GetUnitType()
{
    IdrisiDataset *poGDS = (IdrisiDataset *)poDS;

    return poGDS->pszUnitType;
}

/************************************************************************/
/*                            SetUnitType()                             */
/************************************************************************/

CPLErr IdrisiRasterBand::SetUnitType(const char *pszUnitType)
{
    IdrisiDataset *poGDS = (IdrisiDataset *)poDS;

    if (strlen(pszUnitType) == 0)
    {
        poGDS->papszRDC =
            CSLSetNameValue(poGDS->papszRDC, rdcVALUE_UNITS, "unspecified");
    }
    else
    {
        poGDS->papszRDC =
            CSLSetNameValue(poGDS->papszRDC, rdcVALUE_UNITS, pszUnitType);
    }

    return CE_None;
}

/************************************************************************/
/*                             SetMinMax()                              */
/************************************************************************/

CPLErr IdrisiRasterBand::SetMinMax(double dfMin, double dfMax)
{
    IdrisiDataset *poGDS = (IdrisiDataset *)poDS;

    fMinimum = (float)dfMin;
    fMaximum = (float)dfMax;

    double adfMin[3] = {0.0, 0.0, 0.0};
    double adfMax[3] = {0.0, 0.0, 0.0};

    if (myCSLFetchNameValue(poGDS->papszRDC, rdcMIN_VALUE) != nullptr)
        CPLsscanf(myCSLFetchNameValue(poGDS->papszRDC, rdcMIN_VALUE),
                  "%lf %lf %lf", &adfMin[0], &adfMin[1], &adfMin[2]);
    if (myCSLFetchNameValue(poGDS->papszRDC, rdcMAX_VALUE) != nullptr)
        CPLsscanf(myCSLFetchNameValue(poGDS->papszRDC, rdcMAX_VALUE),
                  "%lf %lf %lf", &adfMax[0], &adfMax[1], &adfMax[2]);

    adfMin[nBand - 1] = dfMin;
    adfMax[nBand - 1] = dfMax;

    if (poGDS->nBands == 3)
    {
        poGDS->papszRDC = CSLSetNameValue(
            poGDS->papszRDC, rdcMIN_VALUE,
            CPLSPrintf("%.8g %.8g %.8g", adfMin[0], adfMin[1], adfMin[2]));
        poGDS->papszRDC = CSLSetNameValue(
            poGDS->papszRDC, rdcMAX_VALUE,
            CPLSPrintf("%.8g %.8g %.8g", adfMax[0], adfMax[1], adfMax[2]));
        poGDS->papszRDC = CSLSetNameValue(
            poGDS->papszRDC, rdcDISPLAY_MIN,
            CPLSPrintf("%.8g %.8g %.8g", adfMin[0], adfMin[1], adfMin[2]));
        poGDS->papszRDC = CSLSetNameValue(
            poGDS->papszRDC, rdcDISPLAY_MAX,
            CPLSPrintf("%.8g %.8g %.8g", adfMax[0], adfMax[1], adfMax[2]));
    }
    else
    {
        poGDS->papszRDC = CSLSetNameValue(poGDS->papszRDC, rdcMIN_VALUE,
                                          CPLSPrintf("%.8g", adfMin[0]));
        poGDS->papszRDC = CSLSetNameValue(poGDS->papszRDC, rdcMAX_VALUE,
                                          CPLSPrintf("%.8g", adfMax[0]));
        poGDS->papszRDC = CSLSetNameValue(poGDS->papszRDC, rdcDISPLAY_MIN,
                                          CPLSPrintf("%.8g", adfMin[0]));
        poGDS->papszRDC = CSLSetNameValue(poGDS->papszRDC, rdcDISPLAY_MAX,
                                          CPLSPrintf("%.8g", adfMax[0]));
    }

    return CE_None;
}

/************************************************************************/
/*                           SetStatistics()                            */
/************************************************************************/

CPLErr IdrisiRasterBand::SetStatistics(double dfMin, double dfMax,
                                       double dfMean, double dfStdDev)
{
    SetMinMax(dfMin, dfMax);

    return GDALPamRasterBand::SetStatistics(dfMin, dfMax, dfMean, dfStdDev);
}

/************************************************************************/
/*                           SetDefaultRAT()                            */
/************************************************************************/

CPLErr IdrisiRasterBand::SetDefaultRAT(const GDALRasterAttributeTable *poRAT)
{
    if (!poRAT)
    {
        return CE_Failure;
    }

    // ----------------------------------------------------------
    // Get field indices
    // ----------------------------------------------------------

    int iValue = -1;
    int iRed = poRAT->GetColOfUsage(GFU_Red);
    int iGreen = poRAT->GetColOfUsage(GFU_Green);
    int iBlue = poRAT->GetColOfUsage(GFU_Blue);

    GDALColorTable *poCT = nullptr;
    char **papszNames = nullptr;

    int nFact = 1;

    // ----------------------------------------------------------
    // Seek for "Value" field index (AGIS standards field name)
    // ----------------------------------------------------------

    if (GetColorTable() == nullptr ||
        GetColorTable()->GetColorEntryCount() == 0)
    {
        for (int i = 0; i < poRAT->GetColumnCount(); i++)
        {
            if (STARTS_WITH_CI(poRAT->GetNameOfCol(i), "Value"))
            {
                iValue = i;
                break;
            }
        }

        if (iRed != -1 && iGreen != -1 && iBlue != -1)
        {
            poCT = new GDALColorTable();
            nFact = poRAT->GetTypeOfCol(iRed) == GFT_Real ? 255 : 1;
        }
    }

    // ----------------------------------------------------------
    // Seek for Name field index
    // ----------------------------------------------------------

    int iName = -1;
    if (CSLCount(GetCategoryNames()) == 0)
    {
        iName = poRAT->GetColOfUsage(GFU_Name);
        if (iName == -1)
        {
            for (int i = 0; i < poRAT->GetColumnCount(); i++)
            {
                if (STARTS_WITH_CI(poRAT->GetNameOfCol(i), "Class_Name"))
                {
                    iName = i;
                    break;
                }
                else if (STARTS_WITH_CI(poRAT->GetNameOfCol(i), "Categor"))
                {
                    iName = i;
                    break;
                }
                else if (STARTS_WITH_CI(poRAT->GetNameOfCol(i), "Name"))
                {
                    iName = i;
                    break;
                }
            }
        }

        /* if still can't find it use the first String column */

        if (iName == -1)
        {
            for (int i = 0; i < poRAT->GetColumnCount(); i++)
            {
                if (poRAT->GetTypeOfCol(i) == GFT_String)
                {
                    iName = i;
                    break;
                }
            }
        }

        // ----------------------------------------------------------
        // Incomplete Attribute Table;
        // ----------------------------------------------------------

        if (iName == -1)
        {
            iName = iValue;
        }
    }

    // ----------------------------------------------------------
    // Load values
    // ----------------------------------------------------------

    GDALColorEntry sColor;
    int iEntry = 0;
    int iOut = 0;
    int nEntryCount = poRAT->GetRowCount();
    int nValue = 0;

    if (iValue != -1)
    {
        nValue = poRAT->GetValueAsInt(iEntry, iValue);
    }

    for (iOut = 0; iOut < 65535 && (iEntry < nEntryCount); iOut++)
    {
        if (iOut == nValue)
        {
            if (poCT)
            {
                const double dRed = poRAT->GetValueAsDouble(iEntry, iRed);
                const double dGreen = poRAT->GetValueAsDouble(iEntry, iGreen);
                const double dBlue = poRAT->GetValueAsDouble(iEntry, iBlue);
                sColor.c1 = (short)(dRed * nFact);
                sColor.c2 = (short)(dGreen * nFact);
                sColor.c3 = (short)(dBlue * nFact);
                sColor.c4 = (short)(255 / nFact);
                poCT->SetColorEntry(iEntry, &sColor);
            }

            if (iName != -1)
            {
                papszNames = CSLAddString(
                    papszNames, poRAT->GetValueAsString(iEntry, iName));
            }

            /* Advance on the table */

            if ((++iEntry) < nEntryCount)
            {
                if (iValue != -1)
                    nValue = poRAT->GetValueAsInt(iEntry, iValue);
                else
                    nValue = iEntry;
            }
        }
        else if (iOut < nValue)
        {
            if (poCT)
            {
                sColor.c1 = (short)0;
                sColor.c2 = (short)0;
                sColor.c3 = (short)0;
                sColor.c4 = (short)255;
                poCT->SetColorEntry(iEntry, &sColor);
            }

            if (iName != -1)
                papszNames = CSLAddString(papszNames, "");
        }
    }

    // ----------------------------------------------------------
    // Set Color Table
    // ----------------------------------------------------------

    if (poCT)
    {
        SetColorTable(poCT);
        delete poCT;
    }

    // ----------------------------------------------------------
    // Update Category Names
    // ----------------------------------------------------------

    if (papszNames)
    {
        SetCategoryNames(papszNames);
        CSLDestroy(papszNames);
    }

    // ----------------------------------------------------------
    // Update Attribute Table
    // ----------------------------------------------------------

    if (poDefaultRAT)
    {
        delete poDefaultRAT;
    }

    poDefaultRAT = poRAT->Clone();

    return CE_None;
}

/************************************************************************/
/*                           GetDefaultRAT()                            */
/************************************************************************/

GDALRasterAttributeTable *IdrisiRasterBand::GetDefaultRAT()
{
    IdrisiDataset *poGDS = (IdrisiDataset *)poDS;

    if (poGDS->papszCategories == nullptr)
    {
        return nullptr;
    }

    bool bHasColorTable = poGDS->poColorTable->GetColorEntryCount() > 0;

    // ----------------------------------------------------------
    // Create the bands Attribute Table
    // ----------------------------------------------------------

    if (poDefaultRAT)
    {
        delete poDefaultRAT;
    }

    poDefaultRAT = new GDALDefaultRasterAttributeTable();

    // ----------------------------------------------------------
    // Create (Value, Red, Green, Blue, Alpha, Class_Name) fields
    // ----------------------------------------------------------

    poDefaultRAT->CreateColumn("Value", GFT_Integer, GFU_Generic);
    poDefaultRAT->CreateColumn("Value_1", GFT_Integer, GFU_MinMax);

    if (bHasColorTable)
    {
        poDefaultRAT->CreateColumn("Red", GFT_Integer, GFU_Red);
        poDefaultRAT->CreateColumn("Green", GFT_Integer, GFU_Green);
        poDefaultRAT->CreateColumn("Blue", GFT_Integer, GFU_Blue);
        poDefaultRAT->CreateColumn("Alpha", GFT_Integer, GFU_Alpha);
    }
    poDefaultRAT->CreateColumn("Class_name", GFT_String, GFU_Name);

    // ----------------------------------------------------------
    // Loop through the Category Names.
    // ----------------------------------------------------------

    GDALColorEntry sEntry;
    int iName = poDefaultRAT->GetColOfUsage(GFU_Name);
    int nEntryCount = CSLCount(poGDS->papszCategories);
    int iRows = 0;

    for (int iEntry = 0; iEntry < nEntryCount; iEntry++)
    {
        if (EQUAL(poGDS->papszCategories[iEntry], ""))
        {
            continue;  // Eliminate the empty ones
        }
        poDefaultRAT->SetRowCount(poDefaultRAT->GetRowCount() + 1);
        poDefaultRAT->SetValue(iRows, 0, iEntry);
        poDefaultRAT->SetValue(iRows, 1, iEntry);
        if (bHasColorTable)
        {
            poGDS->poColorTable->GetColorEntryAsRGB(iEntry, &sEntry);
            poDefaultRAT->SetValue(iRows, 2, sEntry.c1);
            poDefaultRAT->SetValue(iRows, 3, sEntry.c2);
            poDefaultRAT->SetValue(iRows, 4, sEntry.c3);
            poDefaultRAT->SetValue(iRows, 5, sEntry.c4);
        }
        poDefaultRAT->SetValue(iRows, iName, poGDS->papszCategories[iEntry]);
        iRows++;
    }

    return poDefaultRAT;
}

/************************************************************************/
/*                       IdrisiGeoReference2Wkt()                       */
/************************************************************************/

/***
 * Converts Idrisi geographic reference information to OpenGIS WKT.
 *
 * The Idrisi metadata file contain two fields that describe the
 * geographic reference, RefSystem and RefUnit.
 *
 * RefSystem can contains the world "plane" or the name of a georeference
 * file <refsystem>.ref that details the geographic reference
 * system( coordinate system and projection parameters ). RefUnits
 * indicates the unit of the image bounds.
 *
 * The georeference files are generally located in the product installation
 * folder $IDRISIDIR\Georef, but they are first looked for in the same
 * folder as the data file.
 *
 * If a Reference system names can be recognized by a name convention
 * it will be interpreted without the need to read the georeference file.
 * That includes "latlong" and all the UTM and State Plane zones.
 *
 * RefSystem "latlong" means that the data is not project and the coordinate
 * system is WGS84. RefSystem "plane" means that the there is no coordinate
 * system but the it is possible to calculate areas and distance by looking
 * at the RefUnits.
 *
 * If the environment variable IDRISIDIR is not set and the georeference file
 * need to be read then the projection string will result as unknown.
 ***/

CPLErr IdrisiGeoReference2Wkt(const char *pszFilename, const char *pszRefSystem,
                              const char *pszRefUnits,
                              OGRSpatialReference &oSRS)
{
    // ---------------------------------------------------------
    //  Plane
    // ---------------------------------------------------------

    if (EQUAL(pszRefSystem, rstPLANE))
    {
        oSRS.SetLocalCS("Plane");
        int nUnit = GetUnitIndex(pszRefUnits);
        if (nUnit > -1)
        {
            int nDeft = aoLinearUnitsConv[nUnit].nDefaultG;
            oSRS.SetLinearUnits(aoLinearUnitsConv[nDeft].pszName,
                                aoLinearUnitsConv[nDeft].dfConv);
        }
        return CE_None;
    }

    // ---------------------------------------------------------
    //  Latlong
    // ---------------------------------------------------------

    if (EQUAL(pszRefSystem, rstLATLONG) || EQUAL(pszRefSystem, rstLATLONG2))
    {
        oSRS.SetWellKnownGeogCS("WGS84");
        return CE_None;
    }

    // ---------------------------------------------------------
    //  Prepare for scanning in lower case
    // ---------------------------------------------------------

    char *pszRefSystemLower = CPLStrdup(pszRefSystem);
    CPLStrlwr(pszRefSystemLower);

    // ---------------------------------------------------------
    //  UTM naming convention( ex.: utm-30n )
    // ---------------------------------------------------------

    if (EQUALN(pszRefSystem, rstUTM, 3))
    {
        int nZone;
        char cNorth;
        sscanf(pszRefSystemLower, rstUTM, &nZone, &cNorth);
        oSRS.SetWellKnownGeogCS("WGS84");
        oSRS.SetUTM(nZone, (cNorth == 'n'));
        CPLFree(pszRefSystemLower);
        return CE_None;
    }

    // ---------------------------------------------------------
    //  State Plane naming convention( ex.: spc83ma1 )
    // ---------------------------------------------------------

    if (EQUALN(pszRefSystem, rstSPC, 3))
    {
        int nNAD;
        int nZone;
        char szState[3];
        sscanf(pszRefSystemLower, rstSPC, &nNAD, szState, &nZone);
        int nSPCode = GetStateCode(szState);
        if (nSPCode != -1)
        {
            nZone = (nZone == 1 ? nSPCode : nSPCode + nZone - 1);

            if (oSRS.SetStatePlane(nZone, (nNAD == 83)) != OGRERR_FAILURE)
            {
                CPLFree(pszRefSystemLower);
                return CE_None;
            }

            // ----------------------------------------------------------
            //  If SetStatePlane fails, set GeoCS as NAD Datum and let it
            //  try to read the projection info from georeference file( * )
            // ----------------------------------------------------------

            oSRS.SetWellKnownGeogCS(CPLSPrintf("NAD%d", nNAD));
        }
    }

    CPLFree(pszRefSystemLower);
    pszRefSystemLower = nullptr;

    // ------------------------------------------------------------------
    //  Search for georeference file <RefSystem>.ref
    // ------------------------------------------------------------------

    const char *pszFName = CPLSPrintf("%s%c%s.ref", CPLGetDirname(pszFilename),
                                      PATHDELIM, pszRefSystem);

    if (!FileExists(pszFName))
    {
        // ------------------------------------------------------------------
        //  Look at $IDRISIDIR\Georef\<RefSystem>.ref
        // ------------------------------------------------------------------

        const char *pszIdrisiDir = CPLGetConfigOption("IDRISIDIR", nullptr);

        if ((pszIdrisiDir) != nullptr)
        {
            pszFName = CPLSPrintf("%s%cgeoref%c%s.ref", pszIdrisiDir, PATHDELIM,
                                  PATHDELIM, pszRefSystem);
        }
    }

    // ------------------------------------------------------------------
    //  Cannot find georeference file
    // ------------------------------------------------------------------

    if (!FileExists(pszFName))
    {
        CPLDebug("RST", "Cannot find Idrisi georeference file %s",
                 pszRefSystem);

        if (oSRS.IsGeographic() == FALSE) /* see State Plane remarks( * ) */
        {
            oSRS.SetLocalCS("Unknown");
            int nUnit = GetUnitIndex(pszRefUnits);
            if (nUnit > -1)
            {
                int nDeft = aoLinearUnitsConv[nUnit].nDefaultG;
                oSRS.SetLinearUnits(aoLinearUnitsConv[nDeft].pszName,
                                    aoLinearUnitsConv[nDeft].dfConv);
            }
        }
        return CE_Failure;
    }

    // ------------------------------------------------------------------
    //  Read values from georeference file
    // ------------------------------------------------------------------

    char **papszRef = CSLLoad(pszFName);
    myCSLSetNameValueSeparator(papszRef, ":");

    char *pszGeorefName = nullptr;

    const char *pszREF_SYSTEM = myCSLFetchNameValue(papszRef, refREF_SYSTEM);
    if (pszREF_SYSTEM != nullptr && EQUAL(pszREF_SYSTEM, "") == FALSE)
    {
        pszGeorefName = CPLStrdup(pszREF_SYSTEM);
    }
    else
    {
        pszGeorefName =
            CPLStrdup(myCSLFetchNameValue(papszRef, refREF_SYSTEM2));
    }
    char *pszProjName = CPLStrdup(myCSLFetchNameValue(papszRef, refPROJECTION));
    char *pszDatum = CPLStrdup(myCSLFetchNameValue(papszRef, refDATUM));
    char *pszEllipsoid = CPLStrdup(myCSLFetchNameValue(papszRef, refELLIPSOID));
    const double dfCenterLat =
        CPLAtof_nz(myCSLFetchNameValue(papszRef, refORIGIN_LAT));
    const double dfCenterLong =
        CPLAtof_nz(myCSLFetchNameValue(papszRef, refORIGIN_LONG));
    const double dfSemiMajor =
        CPLAtof_nz(myCSLFetchNameValue(papszRef, refMAJOR_SAX));
    const double dfSemiMinor =
        CPLAtof_nz(myCSLFetchNameValue(papszRef, refMINOR_SAX));
    const double dfFalseEasting =
        CPLAtof_nz(myCSLFetchNameValue(papszRef, refORIGIN_X));
    const double dfFalseNorthing =
        CPLAtof_nz(myCSLFetchNameValue(papszRef, refORIGIN_Y));
    const double dfStdP1 =
        CPLAtof_nz(myCSLFetchNameValue(papszRef, refSTANDL_1));
    const double dfStdP2 =
        CPLAtof_nz(myCSLFetchNameValue(papszRef, refSTANDL_2));
    double dfScale;
    double adfToWGS84[3] = {0.0, 0.0, 0.0};

    const char *pszToWGS84 = myCSLFetchNameValue(papszRef, refDELTA_WGS84);
    if (pszToWGS84)
        CPLsscanf(pszToWGS84, "%lf %lf %lf", &adfToWGS84[0], &adfToWGS84[1],
                  &adfToWGS84[2]);

    const char *pszSCALE_FAC = myCSLFetchNameValue(papszRef, refSCALE_FAC);
    if (pszSCALE_FAC == nullptr || EQUAL(pszSCALE_FAC, "na"))
        dfScale = 1.0;
    else
        dfScale = CPLAtof_nz(pszSCALE_FAC);

    CSLDestroy(papszRef);

    // ----------------------------------------------------------------------
    //  Set the Geographic Coordinate System
    // ----------------------------------------------------------------------

    if (oSRS.IsGeographic() == FALSE) /* see State Plane remarks(*) */
    {
        int nEPSG = 0;

        // ----------------------------------------------------------------------
        //  Is it a WGS84 equivalent?
        // ----------------------------------------------------------------------

        if ((STARTS_WITH_CI(pszEllipsoid, "WGS")) &&
            (strstr(pszEllipsoid, "84")) && (STARTS_WITH_CI(pszDatum, "WGS")) &&
            (strstr(pszDatum, "84")) && (adfToWGS84[0] == 0.0) &&
            (adfToWGS84[1] == 0.0) && (adfToWGS84[2] == 0.0))
        {
            nEPSG = 4326;
        }

        // ----------------------------------------------------------------------
        //  Match GCS's DATUM_NAME by using 'ApproxString' over Datum
        // ----------------------------------------------------------------------

        if (nEPSG == 0)
        {
            const PJ_TYPE nObjType = PJ_TYPE_GEODETIC_REFERENCE_FRAME;
            auto datumList =
                proj_create_from_name(OSRGetProjTLSContext(), "EPSG", pszDatum,
                                      &nObjType, 1, true, 1, nullptr);
            if (datumList && proj_list_get_count(datumList) == 1)
            {
                auto datum =
                    proj_list_get(OSRGetProjTLSContext(), datumList, 0);
                if (datum)
                {
                    const char *datumCode = proj_get_id_code(datum, 0);
                    if (datumCode)
                    {
                        auto crsList = proj_query_geodetic_crs_from_datum(
                            OSRGetProjTLSContext(), "EPSG", "EPSG", datumCode,
                            "geographic 2D");
                        if (crsList && proj_list_get_count(crsList) != 0)
                        {
                            auto crs = proj_list_get(OSRGetProjTLSContext(),
                                                     crsList, 0);
                            if (crs)
                            {
                                const char *crsCode = proj_get_id_code(crs, 0);
                                if (crsCode)
                                {
                                    nEPSG = atoi(crsCode);
                                }
                                proj_destroy(crs);
                            }
                        }
                        proj_list_destroy(crsList);
                    }
                    proj_destroy(datum);
                }
            }
            proj_list_destroy(datumList);
        }

        // ----------------------------------------------------------------------
        //  Match GCS's COORD_REF_SYS_NAME by using 'ApproxString' over Datum
        // ----------------------------------------------------------------------

        if (nEPSG == 0)
        {
            const PJ_TYPE nObjType = PJ_TYPE_GEOGRAPHIC_2D_CRS;
            auto crsList =
                proj_create_from_name(OSRGetProjTLSContext(), "EPSG", pszDatum,
                                      &nObjType, 1, true, 1, nullptr);
            if (crsList && proj_list_get_count(crsList) != 0)
            {
                auto crs = proj_list_get(OSRGetProjTLSContext(), crsList, 0);
                if (crs)
                {
                    const char *crsCode = proj_get_id_code(crs, 0);
                    if (crsCode)
                    {
                        nEPSG = atoi(crsCode);
                    }
                    proj_destroy(crs);
                }
            }
            proj_list_destroy(crsList);
        }

        if (nEPSG != 0)
        {
            oSRS.importFromEPSG(nEPSG);
        }
        else
        {
            // --------------------------------------------------
            //  Create GeogCS based on the georeference file info
            // --------------------------------------------------

            oSRS.SetGeogCS(pszRefSystem, pszDatum, pszEllipsoid, dfSemiMajor,
                           (dfSemiMinor == dfSemiMajor)
                               ? 0.0
                               : (-1.0 / (dfSemiMinor / dfSemiMajor - 1.0)));
        }

        // ----------------------------------------------------------------------
        //  Note: That will override EPSG info:
        // ----------------------------------------------------------------------

        oSRS.SetTOWGS84(adfToWGS84[0], adfToWGS84[1], adfToWGS84[2]);
    }

    // ----------------------------------------------------------------------
    //  If the georeference file tells that it is a non project system:
    // ----------------------------------------------------------------------

    if (EQUAL(pszProjName, "none"))
    {
        CPLFree(pszGeorefName);
        CPLFree(pszProjName);
        CPLFree(pszDatum);
        CPLFree(pszEllipsoid);

        return CE_None;
    }

    // ----------------------------------------------------------------------
    //  Create Projection information based on georeference file info
    // ----------------------------------------------------------------------

    //  Idrisi user's Manual,   Supported Projection:
    //
    //      Mercator
    //      Transverse Mercator
    //      Gauss-Kruger
    //      Lambert Conformal Conic
    //      Plate Carree
    //      Hammer Aitoff
    //      Lambert North Polar Azimuthal Equal Area
    //      Lambert South Polar Azimuthal Equal Area
    //      Lambert Transverse Azimuthal Equal Area
    //      Lambert Oblique Polar Azimuthal Equal Area
    //      North Polar Stereographic
    //      South Polar Stereographic
    //      Transverse Stereographic
    //      Oblique Stereographic
    //      Albers Equal Area Conic
    //      Sinusoidal
    //      Cylindrical Equal Area

    if (EQUAL(pszProjName, "Mercator"))
    {
        oSRS.SetMercator(dfCenterLat, dfCenterLong, dfScale, dfFalseEasting,
                         dfFalseNorthing);
    }
    else if (EQUAL(pszProjName, "Transverse Mercator"))
    {
        oSRS.SetTM(dfCenterLat, dfCenterLong, dfScale, dfFalseEasting,
                   dfFalseNorthing);
    }
    else if (EQUAL(pszProjName, "Gauss-Kruger"))
    {
        oSRS.SetTM(dfCenterLat, dfCenterLong, dfScale, dfFalseEasting,
                   dfFalseNorthing);
    }
    else if (EQUAL(pszProjName, "Lambert Conformal Conic"))
    {
        oSRS.SetLCC(dfStdP1, dfStdP2, dfCenterLat, dfCenterLong, dfFalseEasting,
                    dfFalseNorthing);
    }
    else if (EQUAL(pszProjName, "Plate Carr"
                                "\xE9"
                                "e")) /* 'eacute' in ISO-8859-1 */
    {
        oSRS.SetEquirectangular(dfCenterLat, dfCenterLong, dfFalseEasting,
                                dfFalseNorthing);
    }
    else if (EQUAL(pszProjName, "Hammer Aitoff"))
    {
        oSRS.SetProjection(pszProjName);
        oSRS.SetProjParm(SRS_PP_LATITUDE_OF_ORIGIN, dfCenterLat);
        oSRS.SetProjParm(SRS_PP_CENTRAL_MERIDIAN, dfCenterLong);
        oSRS.SetProjParm(SRS_PP_FALSE_EASTING, dfFalseEasting);
        oSRS.SetProjParm(SRS_PP_FALSE_NORTHING, dfFalseNorthing);
    }
    else if (EQUAL(pszProjName, "Lambert North Polar Azimuthal Equal Area") ||
             EQUAL(pszProjName, "Lambert South Polar Azimuthal Equal Area") ||
             EQUAL(pszProjName, "Lambert Transverse Azimuthal Equal Area") ||
             EQUAL(pszProjName, "Lambert Oblique Polar Azimuthal Equal Area"))
    {
        oSRS.SetLAEA(dfCenterLat, dfCenterLong, dfFalseEasting,
                     dfFalseNorthing);
    }
    else if (EQUAL(pszProjName, "North Polar Stereographic") ||
             EQUAL(pszProjName, "South Polar Stereographic"))
    {
        oSRS.SetPS(dfCenterLat, dfCenterLong, dfScale, dfFalseEasting,
                   dfFalseNorthing);
    }
    else if (EQUAL(pszProjName, "Transverse Stereographic"))
    {
        oSRS.SetStereographic(dfCenterLat, dfCenterLong, dfScale,
                              dfFalseEasting, dfFalseNorthing);
    }
    else if (EQUAL(pszProjName, "Oblique Stereographic"))
    {
        oSRS.SetOS(dfCenterLat, dfCenterLong, dfScale, dfFalseEasting,
                   dfFalseNorthing);
    }
    else if (EQUAL(pszProjName, "Alber's Equal Area Conic") ||
             EQUAL(pszProjName, "Albers Equal Area Conic"))
    {
        oSRS.SetACEA(dfStdP1, dfStdP2, dfCenterLat, dfCenterLong,
                     dfFalseEasting, dfFalseNorthing);
    }
    else if (EQUAL(pszProjName, "Sinusoidal"))
    {
        oSRS.SetSinusoidal(dfCenterLong, dfFalseEasting, dfFalseNorthing);
    }
    else if (EQUAL(pszProjName, "CylindricalEA") ||
             EQUAL(pszProjName, "Cylindrical Equal Area"))
    {
        oSRS.SetCEA(dfStdP1, dfCenterLong, dfFalseEasting, dfFalseNorthing);
    }
    else
    {
        CPLError(
            CE_Warning, CPLE_NotSupported,
            "Projection not listed on Idrisi User's Manual( v.15.0/2005 ).\n\t"
            "[\"%s\" in georeference file \"%s\"]",
            pszProjName, pszFName);
        oSRS.Clear();

        CPLFree(pszGeorefName);
        CPLFree(pszProjName);
        CPLFree(pszDatum);
        CPLFree(pszEllipsoid);

        return CE_Warning;
    }

    // ----------------------------------------------------------------------
    //  Set the Linear Units
    // ----------------------------------------------------------------------

    int nUnit = GetUnitIndex(pszRefUnits);
    if (nUnit > -1)
    {
        int nDeft = aoLinearUnitsConv[nUnit].nDefaultG;
        oSRS.SetLinearUnits(aoLinearUnitsConv[nDeft].pszName,
                            aoLinearUnitsConv[nDeft].dfConv);
    }
    else
    {
        oSRS.SetLinearUnits("unknown", 1.0);
    }

    // ----------------------------------------------------------------------
    //  Name ProjCS with the name on the georeference file
    // ----------------------------------------------------------------------

    oSRS.SetProjCS(pszGeorefName);

    CPLFree(pszGeorefName);
    CPLFree(pszProjName);
    CPLFree(pszDatum);
    CPLFree(pszEllipsoid);

    return CE_None;
}

/************************************************************************/
/*                        Wkt2GeoReference()                            */
/************************************************************************/

/***
 * Converts OpenGIS WKT to Idrisi geographic reference information.
 *
 * That function will fill up the two parameters RefSystem and RefUnit
 * that goes into the Idrisi metadata. But it could also create
 * a accompanying georeference file to the output if necessary.
 *
 * First it will try to identify the ProjString as Local, WGS84 or
 * one of the Idrisi name convention reference systems
 * otherwise, if the projection system is supported by Idrisi,
 * it will create a accompanying georeference files.
 ***/

CPLErr IdrisiDataset::Wkt2GeoReference(const OGRSpatialReference &oSRS,
                                       char **pszRefSystem, char **pszRefUnit)
{
    // -----------------------------------------------------
    //  Plane with default "Meters"
    // -----------------------------------------------------

    if (oSRS.IsEmpty())
    {
        *pszRefSystem = CPLStrdup(rstPLANE);
        *pszRefUnit = CPLStrdup(rstMETER);
        return CE_None;
    }

    // -----------------------------------------------------
    //  Local => Plane + Linear Unit
    // -----------------------------------------------------

    if (oSRS.IsLocal())
    {
        *pszRefSystem = CPLStrdup(rstPLANE);
        *pszRefUnit = GetUnitDefault(oSRS.GetAttrValue("UNIT"),
                                     CPLSPrintf("%f", oSRS.GetLinearUnits()));
        return CE_None;
    }

    // -----------------------------------------------------
    //  Test to identify WGS84 => Latlong + Angular Unit
    // -----------------------------------------------------

    if (oSRS.IsGeographic())
    {
        char *pszSpheroid = CPLStrdup(oSRS.GetAttrValue("SPHEROID"));
        char *pszAuthName = CPLStrdup(oSRS.GetAuthorityName("GEOGCS"));
        char *pszDatum = CPLStrdup(oSRS.GetAttrValue("DATUM"));
        int nGCSCode = -1;
        if (EQUAL(pszAuthName, "EPSG"))
        {
            nGCSCode = atoi(oSRS.GetAuthorityCode("GEOGCS"));
        }
        if ((nGCSCode == 4326) ||
            ((STARTS_WITH_CI(pszSpheroid, "WGS")) &&
             (strstr(pszSpheroid, "84")) && (STARTS_WITH_CI(pszDatum, "WGS")) &&
             (strstr(pszDatum, "84"))))
        {
            *pszRefSystem = CPLStrdup(rstLATLONG);
            *pszRefUnit = CPLStrdup(rstDEGREE);

            CPLFree(pszSpheroid);
            CPLFree(pszAuthName);
            CPLFree(pszDatum);

            return CE_None;
        }

        CPLFree(pszSpheroid);
        CPLFree(pszAuthName);
        CPLFree(pszDatum);
    }

    // -----------------------------------------------------
    //  Prepare to match some projections
    // -----------------------------------------------------

    const char *pszProjName = oSRS.GetAttrValue("PROJECTION");

    if (pszProjName == nullptr)
    {
        pszProjName = "";
    }

    // -----------------------------------------------------
    //  Check for UTM zones
    // -----------------------------------------------------

    if (EQUAL(pszProjName, SRS_PT_TRANSVERSE_MERCATOR))
    {
        int nZone = oSRS.GetUTMZone();

        if ((nZone != 0) && (EQUAL(oSRS.GetAttrValue("DATUM"), SRS_DN_WGS84)))
        {
            double dfNorth = oSRS.GetProjParm(SRS_PP_FALSE_NORTHING);
            *pszRefSystem = CPLStrdup(
                CPLSPrintf(rstUTM, nZone, (dfNorth == 0.0 ? 'n' : 's')));
            *pszRefUnit = CPLStrdup(rstMETER);
            return CE_None;
        }
    }

    // -----------------------------------------------------
    //  Check for State Plane
    // -----------------------------------------------------

    if (EQUAL(pszProjName, SRS_PT_LAMBERT_CONFORMAL_CONIC_2SP) ||
        EQUAL(pszProjName, SRS_PT_TRANSVERSE_MERCATOR))
    {
        CPLString osPCSCode;
        const char *pszID = oSRS.GetAuthorityCode("PROJCS");
        if (pszID != nullptr && strlen(pszID) > 0)
        {
            const char *pszPCSCode =
                CSVGetField(CSVFilename("stateplane.csv"), "EPSG_PCS_CODE",
                            pszID, CC_Integer, "ID");
            osPCSCode = (pszPCSCode) ? pszPCSCode : "";
            if (!osPCSCode.empty())
            {
                int nZone = osPCSCode.back() - '0';
                int nSPCode = atoi(osPCSCode);

                if (nZone == 0)
                    nZone = 1;
                else
                    nSPCode = nSPCode - nZone + 1;

                int nNADYear = 83;
                if (nSPCode > 10000)
                {
                    nNADYear = 27;
                    nSPCode -= 10000;
                }
                char *pszState = CPLStrdup(GetStateName(nSPCode));
                if (!EQUAL(pszState, ""))
                {
                    *pszRefSystem = CPLStrdup(
                        CPLSPrintf(rstSPC, nNADYear, pszState, nZone));
                    *pszRefUnit =
                        GetUnitDefault(oSRS.GetAttrValue("UNIT"),
                                       CPLSPrintf("%f", oSRS.GetLinearUnits()));
                    CPLFree(pszState);
                    return CE_None;
                }
                CPLFree(pszState);
            }
        }  //

        // if EPSG code is missing, go to following steps to work with origin

        const char *pszNAD83 = "83";
        const char *pszNAD27 = "27";
        bool bIsOldNAD = false;

        const char *pszDatumValue = oSRS.GetAttrValue("DATUM", 0);
        if ((strstr(pszDatumValue, pszNAD83) == nullptr) &&
            (strstr(pszDatumValue, pszNAD27) != nullptr))
            // strcpy(pszNAD, "27");
            bIsOldNAD = true;

        if ((oSRS.FindProjParm("central_meridian", nullptr) != -1) &&
            (oSRS.FindProjParm("latitude_of_origin", nullptr) != -1))
        {
            double dfLon = oSRS.GetProjParm("central_meridian");
            double dfLat = oSRS.GetProjParm("latitude_of_origin");
            dfLon = (int)(fabs(dfLon) * 100 + 0.5) / 100.0;
            dfLat = (int)(fabs(dfLat) * 100 + 0.5) / 100.0;
            *pszRefSystem = CPLStrdup(GetSpcs(dfLon, dfLat));
        }

        if (*pszRefSystem != nullptr)
        {
            // Convert 83 TO 27
            if (bIsOldNAD)
            {
                char pszOutRefSystem[9];
                NAD83to27(pszOutRefSystem, *pszRefSystem);
                *pszRefSystem = CPLStrdup(pszOutRefSystem);
            }
            *pszRefUnit =
                GetUnitDefault(oSRS.GetAttrValue("UNIT"),
                               CPLSPrintf("%f", oSRS.GetLinearUnits()));
            return CE_None;
        }
    }

    const char *pszProjectionOut = nullptr;

    if (oSRS.IsProjected())
    {
        // ---------------------------------------------------------
        //  Check for supported projections
        // ---------------------------------------------------------

        if (EQUAL(pszProjName, SRS_PT_MERCATOR_1SP))
        {
            pszProjectionOut = "Mercator";
        }
        else if (EQUAL(pszProjName, SRS_PT_TRANSVERSE_MERCATOR))
        {
            pszProjectionOut = "Transverse Mercator";
        }
        else if (EQUAL(pszProjName, SRS_PT_LAMBERT_CONFORMAL_CONIC_2SP))
        {
            pszProjectionOut = "Lambert Conformal Conic";
        }
        else if (EQUAL(pszProjName, SRS_PT_EQUIRECTANGULAR))
        {
            pszProjectionOut = "Plate Carr"
                               "\xE9"
                               "e"; /* 'eacute' in ISO-8859-1 */
        }
        else if (EQUAL(pszProjName, SRS_PT_LAMBERT_AZIMUTHAL_EQUAL_AREA))
        {
            double dfCenterLat =
                oSRS.GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN, 0.0, nullptr);
            if (dfCenterLat == 0.0)
                pszProjectionOut = "Lambert Transverse Azimuthal Equal Area";
            else if (fabs(dfCenterLat) == 90.0)
                pszProjectionOut = "Lambert Oblique Polar Azimuthal Equal Area";
            else if (dfCenterLat > 0.0)
                pszProjectionOut = "Lambert North Oblique Azimuthal Equal Area";
            else
                pszProjectionOut = "Lambert South Oblique Azimuthal Equal Area";
        }
        else if (EQUAL(pszProjName, SRS_PT_POLAR_STEREOGRAPHIC))
        {
            if (oSRS.GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN, 0.0, nullptr) > 0)
                pszProjectionOut = "North Polar Stereographic";
            else
                pszProjectionOut = "South Polar Stereographic";
        }
        else if (EQUAL(pszProjName, SRS_PT_STEREOGRAPHIC))
        {
            pszProjectionOut = "Transverse Stereographic";
        }
        else if (EQUAL(pszProjName, SRS_PT_OBLIQUE_STEREOGRAPHIC))
        {
            pszProjectionOut = "Oblique Stereographic";
        }
        else if (EQUAL(pszProjName, SRS_PT_SINUSOIDAL))
        {
            pszProjectionOut = "Sinusoidal";
        }
        else if (EQUAL(pszProjName, SRS_PT_ALBERS_CONIC_EQUAL_AREA))
        {
            pszProjectionOut = "Alber's Equal Area Conic";
        }
        else if (EQUAL(pszProjName, SRS_PT_CYLINDRICAL_EQUAL_AREA))
        {
            pszProjectionOut = "Cylindrical Equal Area";
        }

        // ---------------------------------------------------------
        //  Failure, Projection system not supported
        // ---------------------------------------------------------

        if (pszProjectionOut == nullptr)
        {
            CPLDebug("RST", "Not supported by RST driver: PROJECTION[\"%s\"]",
                     pszProjName);

            *pszRefSystem = CPLStrdup(rstPLANE);
            *pszRefUnit = CPLStrdup(rstMETER);
            return CE_Failure;
        }
    }
    else
    {
        pszProjectionOut = "none";
    }

    // ---------------------------------------------------------
    //  Prepare to write ref file
    // ---------------------------------------------------------

    char *pszGeorefName = CPLStrdup("Unknown");
    char *pszDatum = CPLStrdup(oSRS.GetAttrValue("DATUM"));
    char *pszEllipsoid = CPLStrdup(oSRS.GetAttrValue("SPHEROID"));
    double dfSemiMajor = oSRS.GetSemiMajor();
    double dfSemiMinor = oSRS.GetSemiMinor();
    double adfToWGS84[3];
    oSRS.GetTOWGS84(adfToWGS84, 3);

    double dfCenterLat = 0.0;
    double dfCenterLong = 0.0;
    double dfFalseNorthing = 0.0;
    double dfFalseEasting = 0.0;
    double dfScale = 1.0;
    int nParameters = 0;
    double dfStdP1 = 0.0;
    double dfStdP2 = 0.0;
    char *pszAngularUnit = CPLStrdup(oSRS.GetAttrValue("GEOGCS|UNIT"));
    char *pszLinearUnit = nullptr;

    if (oSRS.IsProjected())
    {
        CPLFree(pszGeorefName);
        pszGeorefName = CPLStrdup(oSRS.GetAttrValue("PROJCS"));
        dfCenterLat = oSRS.GetProjParm(SRS_PP_LATITUDE_OF_ORIGIN, 0.0, nullptr);
        dfCenterLong = oSRS.GetProjParm(SRS_PP_CENTRAL_MERIDIAN, 0.0, nullptr);
        dfFalseNorthing = oSRS.GetProjParm(SRS_PP_FALSE_NORTHING, 0.0, nullptr);
        dfFalseEasting = oSRS.GetProjParm(SRS_PP_FALSE_EASTING, 0.0, nullptr);
        dfScale = oSRS.GetProjParm(SRS_PP_SCALE_FACTOR, 0.0, nullptr);
        dfStdP1 = oSRS.GetProjParm(SRS_PP_STANDARD_PARALLEL_1, -0.1, nullptr);
        if (EQUAL(pszProjectionOut, "Cylindrical Equal Area"))
        {
            dfStdP2 = -dfStdP1;
            dfScale = 1.0;
        }
        else
        {
            dfStdP2 =
                oSRS.GetProjParm(SRS_PP_STANDARD_PARALLEL_2, -0.1, nullptr);
        }
        if (dfStdP1 != -0.1)
        {
            nParameters = 1;
            if (dfStdP2 != -0.1)
                nParameters = 2;
        }
        pszLinearUnit = GetUnitDefault(oSRS.GetAttrValue("PROJCS|UNIT"),
                                       CPLSPrintf("%f", oSRS.GetLinearUnits()));
    }
    else
    {
        pszLinearUnit = GetUnitDefault(pszAngularUnit);
    }

    // ---------------------------------------------------------
    //  Create a companion georeference file for this dataset
    // ---------------------------------------------------------

    char **papszRef = nullptr;
    papszRef = CSLAddNameValue(papszRef, refREF_SYSTEM, pszGeorefName);
    papszRef = CSLAddNameValue(papszRef, refPROJECTION, pszProjectionOut);
    papszRef = CSLAddNameValue(papszRef, refDATUM, pszDatum);
    papszRef = CSLAddNameValue(papszRef, refDELTA_WGS84,
                               CPLSPrintf("%.3g %.3g %.3g", adfToWGS84[0],
                                          adfToWGS84[1], adfToWGS84[2]));
    papszRef = CSLAddNameValue(papszRef, refELLIPSOID, pszEllipsoid);
    papszRef = CSLAddNameValue(papszRef, refMAJOR_SAX,
                               CPLSPrintf("%.3f", dfSemiMajor));
    papszRef = CSLAddNameValue(papszRef, refMINOR_SAX,
                               CPLSPrintf("%.3f", dfSemiMinor));
    papszRef = CSLAddNameValue(papszRef, refORIGIN_LONG,
                               CPLSPrintf("%.9g", dfCenterLong));
    papszRef = CSLAddNameValue(papszRef, refORIGIN_LAT,
                               CPLSPrintf("%.9g", dfCenterLat));
    papszRef = CSLAddNameValue(papszRef, refORIGIN_X,
                               CPLSPrintf("%.9g", dfFalseEasting));
    papszRef = CSLAddNameValue(papszRef, refORIGIN_Y,
                               CPLSPrintf("%.9g", dfFalseNorthing));
    papszRef =
        CSLAddNameValue(papszRef, refSCALE_FAC, CPLSPrintf("%.9g", dfScale));
    papszRef = CSLAddNameValue(papszRef, refUNITS, pszLinearUnit);
    papszRef = CSLAddNameValue(papszRef, refPARAMETERS,
                               CPLSPrintf("%1d", nParameters));
    if (nParameters > 0)
        papszRef =
            CSLAddNameValue(papszRef, refSTANDL_1, CPLSPrintf("%.9g", dfStdP1));
    if (nParameters > 1)
        papszRef =
            CSLAddNameValue(papszRef, refSTANDL_2, CPLSPrintf("%.9g", dfStdP2));
    myCSLSetNameValueSeparator(papszRef, ": ");
    SaveAsCRLF(papszRef, CPLResetExtension(pszFilename, extREF));
    CSLDestroy(papszRef);

    *pszRefSystem = CPLStrdup(CPLGetBasename(pszFilename));
    *pszRefUnit = CPLStrdup(pszLinearUnit);

    CPLFree(pszGeorefName);
    CPLFree(pszDatum);
    CPLFree(pszEllipsoid);
    CPLFree(pszLinearUnit);
    CPLFree(pszAngularUnit);

    return CE_None;
}

/************************************************************************/
/*                             FileExists()                             */
/************************************************************************/

bool FileExists(const char *pszPath)
{
    VSIStatBufL sStat;

    return VSIStatL(pszPath, &sStat) == 0;
}

/************************************************************************/
/*                            GetStateCode()                            */
/************************************************************************/

int GetStateCode(const char *pszState)
{
    for (unsigned int i = 0; i < US_STATE_COUNT; i++)
    {
        if (EQUAL(pszState, aoUSStateTable[i].pszName))
        {
            return aoUSStateTable[i].nCode;
        }
    }
    return -1;
}

/************************************************************************/
/*                            GetStateName()                            */
/************************************************************************/

const char *GetStateName(int nCode)
{
    for (unsigned int i = 0; i < US_STATE_COUNT; i++)
    {
        if (nCode == aoUSStateTable[i].nCode)
        {
            return aoUSStateTable[i].pszName;
        }
    }
    return nullptr;
}

/************************************************************************/
/*                            GetSpcs()                                 */
/************************************************************************/

char *GetSpcs(double dfLon, double dfLat)
{
    for (int i = 0; i < ORIGIN_COUNT; i++)
    {
        if ((dfLon == SPCS83Origin[i].longitude) &&
            (dfLat == SPCS83Origin[i].latitude))
        {
            return (char *)SPCS83Origin[i].spcs;
        }
    }
    return nullptr;
}

/************************************************************************/
/*                            NAD83to27()                               */
/************************************************************************/
void NAD83to27(char *pszOutRef, char *pszInRef)
{
    char *pOutput = pszOutRef;
    char *pInput = pszInRef;
    strncpy(pOutput, pInput, 3);

    pOutput = pOutput + 3;
    pInput = pInput + 3;

    memcpy(pOutput, "27", 2);
    pOutput = pOutput + 2;
    pInput = pInput + 2;
    strcpy(pOutput, pInput);
}

/************************************************************************/
/*                            GetUnitIndex()                            */
/************************************************************************/

int GetUnitIndex(const char *pszUnitName)
{
    for (int i = 0; i < (int)LINEAR_UNITS_COUNT; i++)
    {
        if (EQUAL(pszUnitName, aoLinearUnitsConv[i].pszName))
        {
            return i;
        }
    }
    return -1;
}

/************************************************************************/
/*                            GetToMeterIndex()                         */
/************************************************************************/

int GetToMeterIndex(const char *pszToMeter)
{
    const double dfToMeter = CPLAtof_nz(pszToMeter);

    if (dfToMeter != 0.0)
    {
        for (int i = 0; i < (int)LINEAR_UNITS_COUNT; i++)
        {
            if (std::abs(aoLinearUnitsConv[i].dfConv - dfToMeter) < 0.00001)
            {
                return i;
            }
        }
    }

    return -1;
}

/************************************************************************/
/*                            GetUnitDefault()                          */
/************************************************************************/

char *GetUnitDefault(const char *pszUnitName, const char *pszToMeter)
{
    int nIndex = GetUnitIndex(pszUnitName);

    if (nIndex == -1 && pszToMeter != nullptr)
    {
        nIndex = GetToMeterIndex(pszToMeter);
    }

    if (nIndex == -1)
    {
        return CPLStrdup("Unknown");
    }

    return CPLStrdup(
        aoLinearUnitsConv[aoLinearUnitsConv[nIndex].nDefaultI].pszName);
}

/************************************************************************/
/*                               CSLSaveCRLF()                          */
/************************************************************************/

/***
 * Write a stringlist to a CR + LF terminated text file.
 *
 * Returns the number of lines written, or 0 if the file could not
 * be written.
 */

int SaveAsCRLF(char **papszStrList, const char *pszFname)
{
    VSILFILE *fp = VSIFOpenL(pszFname, "wt");
    int nLines = 0;

    if (papszStrList)
    {
        if (fp != nullptr)
        {
            while (*papszStrList != nullptr)
            {
                if (VSIFPrintfL(fp, "%s\r\n", *papszStrList) < 1)
                {
                    CPLError(CE_Failure, CPLE_FileIO,
                             "CSLSaveCRLF(\"%s\") failed: unable to write to "
                             "output file.",
                             pszFname);
                    break;
                }

                nLines++;
                papszStrList++;
            }

            VSIFCloseL(fp);
        }
        else
        {
            CPLError(CE_Failure, CPLE_OpenFailed,
                     "CSLSaveCRLF(\"%s\") failed: unable to open output file.",
                     pszFname);
        }
    }

    return nLines;
}

/************************************************************************/
/*                        GDALRegister_IDRISI()                         */
/************************************************************************/

void GDALRegister_IDRISI()
{
    if (GDALGetDriverByName("RST") != nullptr)
        return;

    GDALDriver *poDriver = new GDALDriver();

    poDriver->SetDescription("RST");
    poDriver->SetMetadataItem(GDAL_DCAP_RASTER, "YES");
    poDriver->SetMetadataItem(GDAL_DMD_LONGNAME, rstVERSION);
    poDriver->SetMetadataItem(GDAL_DMD_HELPTOPIC, "drivers/raster/Idrisi.html");
    poDriver->SetMetadataItem(GDAL_DMD_EXTENSION, extRST);
    poDriver->SetMetadataItem(GDAL_DMD_CREATIONDATATYPES, "Byte Int16 Float32");

    poDriver->SetMetadataItem(GDAL_DCAP_VIRTUALIO, "YES");

    poDriver->pfnOpen = IdrisiDataset::Open;
    poDriver->pfnCreate = IdrisiDataset::Create;
    poDriver->pfnCreateCopy = IdrisiDataset::CreateCopy;

    GetGDALDriverManager()->RegisterDriver(poDriver);
}
